Legislating Components of a Humane City: The Economic Impacts of the Austin, Texas "No Kill" Resolution (City of Austin Resolution 20091105-040) Prepared by: Sloane Hawes, MSW¹, Devrim Ikizler, PhD², Katy Loughney, MBA¹, Philip Tedeschi, MSSW¹, and Kevin Morris, PhD¹,3 Institute for Human-Animal Connection, Graduate School of Social Work, University of Denver¹ Magee and Magee Consulting² Corresponding author: kevin.morris@du.edu3 Prepared for: WaterShed Animal Fund Release Date: October 16, 2017 TABLE OF CONTENTS EXECUTIVE SUMMARY 3 ABBREVIATIONS 5 INTRODUCTION: LEGISLATING A HUMANE CITY 6 BACKGROUND 7 AUSTIN AND TRAVIS COUNTY COMMUNITY PROFILE AUSTIN ANIMAL CENTER OVERVIEW AUSTIN PETS ALIVE! OVERVIEW HISTORY OF CITY OF AUSTIN’S RESOLUTION 20091105-040 7 9 9 10 IMPACT ASSESSMENT METHODOLOGY 13 IMPACTS ON SHELTER MANAGEMENT AND OUTCOMES 16 INTAKE OUTCOMES TRANSFER PARTNERSHIPS ASSESSMENT OF LIVE OUTCOMES 16 21 27 29 IMPACTS ON CITY OF AUSTIN COMMUNITY 33 AUSTIN ANIMAL SERVICES BUDGET SHELTER OPERATIONS VETERINARY CARE AND PET SERVICES PET RETAIL CITY OF AUSTIN BRAND EQUITY 33 36 37 39 40 POTENTIAL ADDITIONAL IMPACTS 43 PUBLIC HEALTH SOCIAL CAPITAL COMMUNITY ENGAGEMENT 43 45 46 LIMITATIONS AND IMPLICATIONS 49 CONCLUSION 49 1 APPENDICIES 51 APPENDIX A: PET OWNERSHIP ESTIMATES BY STATE (AVMA) APPENDIX B: PET OWNERSHIP ESTIMATES BY MSA (AMERICAN HOUSING SURVEY) APPENDIX C: AUSTIN ANIMAL CENTER INTAKE APPENDIX D: TRAVIS COUNTY DEAD ANIMAL PICK UP APPENDIX E: POSITIVE ALTERNATIVES TO SHELTER SURRENDER (PASS) INTAKE APPENDIX F: AAC AND APA OUTCOME DATA APPENDIX G: 2016 APA LENGTH OF STAY DATA APPENDIX H: AUSTIN ANIMAL CENTER BUDGET APPENDIX I: IMPLAN DATA APPENDIX J: LIFETIME ANIMAL SPEND (BASED ON THE NATIONAL PET PRODUCTS ASSOCIATION STUDY) APPENDIX K: PET-FRIENDLY RENTAL HOUSING COMPARISON APPENDIX L: REASONS FOR MOVING (CURRENT POPULATION SURVEY, ANNUAL SOCIAL AND ECONOMIC SUPPLEMENT) APPENDIX M: SUMMARY OF BRAND EQUITY CALCULATIONS APPENDIX N: AUSTIN ANIMAL SERVICES BITE DATA APPENDIX O: CITY OF AUSTIN CRUELTY TO ANIMALS CASES APPENDIX P: AUSTIN PETS ALIVE! DONATIONS 51 53 54 55 56 57 58 59 60 62 63 64 65 66 67 68 2 Executive Summary A Humane City is characterized by the presence of leadership, institutions, and policies working collaboratively across systems to create and implement sustainable human, animal, and environmental welfare. In addition to improving animal welfare, cities that align their policies with humane tenets of compassionate engagement may accrue important economic, public health, and social benefits for their human residents. This report investigates and measures the economic impacts of the City of Austin Resolution 20091105-040, commonly referred to as the “No Kill” resolution, utilizing standard impact assessment methodology. Resolution 20091105-040 resulted in the implementation of a series of recommendations that included achieving and maintaining a 90% Live Release Rate for all companion animals housed at the City of Austin’s municipal animal shelter. In order to effectively determine the impact of Resolution 20091105-040, this study utilized data obtained from a variety of sources, including Austin Animal Center (the municipal animal shelter), Austin Pets Alive! (a private, nonprofit animal shelter that takes in Austin Animal Center’s “at risk” for euthanasia animals), public information requests, survey responses from Austin residents, the U.S. Census Bureau County Business Patterns report, American Housing Survey reports, and IMPLAN software. The economic impact of Resolution 20091105-040 has been measured with consideration for the increased costs and economic outputs resulting from the changes in shelter operations, the potential growth in utilization of veterinary and pet care services, and the potential increases in retail sales of pet products in the Austin/Travis County area. Calculations were also used to estimate the more indirect impacts on the City of Austin’s brand equity. Over the period of study (2010-2016), the regional economic impact of the Resolution has been conservatively measured as follows: Impacts: Resolution Premium ($30,379,667) Shelter Operations $40,938,565 Veterinary/Pet Care Services $49,307,682 Pet Retail Services $25,333,237 City of Austin Brand Equity $72,252,686 ________________________________________________ TOTAL ECONOMIC IMPACT $157,452,503 In addition to exploring the specific economic impacts of Resolution 20091105040, this report also outlines, but does not quantify, the potential broader impacts of the Resolution on human, animal, and environmental health. These areas of impact include: public health, social capital, and community engagement. 3 Overall, this report concludes that a high Live Release Rate is achievable on a community-wide level. However, Resolution 20091105-040 has resulted in a considerably higher than average cost per animal served by Austin Animal Center when compared to previous City of Austin expenditures and several other major U.S. cities1. These costs are balanced by a series of economic and public health benefits that may be accrued across the community. These findings are largely generalizable due to the utilization of conservative data assumptions and standard economic analyses. Austin’s municipal shelter undertook a major operational shift to implement the legislation, which required coordinated and sustained collaboration between Austin’s animal welfare organizations, city policies, city leadership, and citizens (both pet-keeping and otherwise). A city’s decision to implement comparable policies should be made with consideration for the capacity of the existing animal welfare organizations, the cost and resources needed from both community members and partner organizations, and the ethical balance the community seeks to achieve between the animal welfare issues associated with euthanasia versus extended lengths of stay under sheltering conditions. 1 These five U.S. cities do not have legislation that specifically governs municipal shelter operations in terms of Live Release Rate. 4 Abbreviations AAC AAS ABP AHS APA AVMA CBP IHAC IO LRR MSA RTO TLAC Austin Animal Center Austin Animal Services Analysis by Parts Austin Humane Society Austin Pets Alive! American Veterinary Medical Association County Business Patterns Survey Institute for Human-Animal Connection Input-Output Live Release Rate Metropolitan Statistical Area Return to Owner Town Lake Animal Center 5 Introduction: Legislating a Humane City One Health, a concept collaboratively proposed by the American Veterinary Medical Association (AVMA) and the American Medical Association (AMA), literature documents the ways in which human, non-human animal (henceforth “animal”), and environmental health outcomes can be interconnected. This concept provides a foundation upon which to advocate for policies that promote attention to animal welfare2. Making the case for adopting policies that promote the wellbeing of all living things requires an increase in interdisciplinary engagement that can specifically address the economic and social pressures that bring harm to human populations, animal populations, and the environment alike3,4. A Humane City, as defined by the University of Denver’s Institute for Human-Animal Connection, is characterized by the presence of leadership, institutions, and policies working collaboratively across systems to create and implement sustainable human, animal, and environmental welfare. Animal welfare organizations, specifically local companion animal shelters and rescues, provide an opportunity to understand how one aspect of a Humane City – progressive animal welfare policies – can impact the health and prosperity of a community. Utilizing a social-environmental-economic impact analysis methodology5, the following study measured the social, environmental, and economic impacts of the City of Austin Resolution 20091105-040, commonly referred to as the Austin “No Kill” resolution (the report will reference the resolution number throughout for specificity within the context of several animal-related city resolutions implemented during this time). How these impacts contribute to more global outcomes in areas of public health and safety will also be discussed. Resolution 20091105-040 represents just one policy that contributes to Austin’s advancement towards a Humane City designation, as defined by the aforementioned criteria. A Humane City will have a system of policies promoting compassion and respect that transverse all aspects of public life. Additional examples of humane policies in Austin include the conservation measures for the bat colonies under the Congress Avenue Bridge, ordinances that prohibit the chaining of dogs, the establishment of pet-friendly office spaces6, and the passage of a Children’s Outdoor Bill of Rights Resolution7. These policies are all indicative of a city committed to promoting a balance among human, animal, and environmental systems. This report will present Resolution 20091105-040 as a case study of the impacts that may result from efforts directed towards establishing a Humane City. 2 American Veterinary Medical Association (2008). One health: A new professional imperative. Retrieved from: https://www.avma.org/KB/Resources/Reports/Documents/onehealth_final.pdf. 3 Edwards, P. & Abivardi, C. (1998). The value of biodiversity: where ecology and economy blend. Biological Conservation. 83:3. 239-246. 4 Folke, C., Holling, C.S., & Perrings, C. (1996). Biological diversity, ecosystem and the human scale. Ecological applications 6, 1018-1024, 5 Vanclay, F. (2015). Social impact assessment: guidance for assessing and managing the social impacts of projects. International Association of Impact Assessment. 6 http://www.builtinaustin.com/2017/04/24/office-perks-dogs 7 http://www.childrenandnature.org/2017/05/25/a-childs-right-to-nature-why-the-city-of-austin-created-a-childrensoutdoor-bill-of-rights/ 6 Background Austin and Travis County Community Profile The population of Travis County has increased by 17.1% over the last six years with the population estimated at 1,199,323 individuals as of July 2016 8. Of the residents in the county, 49.4% identify as white only, 33.8% identify as Hispanic or Latino, and 8.9% identify as Black or African American, with the remaining 7.9% identifying as another race or ethnicity9. Approximately 62% of the population is within the age range of 18 and 65, and 46% of all Austin residents report that they have attained an education of a Bachelor’s degree or higher. In rankings of the most educated cities in the U.S., Austin frequently appears in the top 1010. As of 2016, there are an estimated 499,062 housing units, with the median gross rent listed as $1,054 and the median household income reported at $61,45111. The city of Austin’s pet-keeping rate is estimated to be higher than the rates on both the national level and in the state of Texas. Although no survey has been conducted in Austin to specifically measure the rate of pet-keeping, two data sources for pet-keeping rates across the U.S. were used to calculate Austin’s pet-keeping for the purposes of this report. In a survey conducted by the AVMA in 201212, which collects data on the state level but not at the county or city level, Texas ranked 21st in petkeeping (data in Appendix A). The American Housing Survey presented by the U.S. Census Bureau13 indicated that the Austin-Round Rock area was 3rd out of the 25 Metropolitan Statistical Areas (MSAs) in percentage of housing units that are occupied with pets in 2013 (Appendix B)14. When assessing the two sources for an estimate of pet-keeping in Austin, AVMA and the American Housing Survey yield different petkeeping rates likely due to definitional issues15. For the purposes of this report, Austin is estimated to have a 63.4% pet-keeping rate as of the year 2012 (Table 1)16. 8 https://www.census.gov/quickfacts/fact/table/traviscountytexas,austincitytexas/PST045216 Ibid. 10 https://wallethub.com/edu/most-and-least-educated-cities/6656/ 11 https://www.census.gov/quickfacts/fact/table/traviscountytexas,austincitytexas/PST045216 12 https://www.avma.org/KB/Resources/Statistics/Pages/Market-research-statistics-US-pet-ownership.aspx 13 https://factfinder.census.gov/faces/tableservices/jsf/pages/productview.xhtml?pid=AHS_2013_S06AO&prodType 14 This data comes from a survey that include a question on the presence of pets in occupied units as part of the 2013 Emergency and Disaster Preparedness supplement conducted for 25 Metropolitan Statistical Areas (MSA). This data was not available longitudinally because the American Housing Survey does not regularly track petkeeping. 15 The American Housing Survey is designed to determine pet-keeping rates for disaster preparation purposes, which include considerations such as ease of entry and potential exits to occupied units where pets may reside 16 National and TX ownership rates as reported in AVMA 2012 Report. 9 7 Region Estimated % of Households with Pets USA 56.0% Texas 58.5% Austin - Round Rock MSA 63.4% Table 1. Austin pet-keeping rate was estimated using 2013 American Housing Survey data, where Austin-Round Rock MSA’s “units occupied with pets” rate was reported to be 113% of national pet-keeping rates. Because American Housing Survey data were not available at the state-wide level, 113% was then applied to national AVMA reported pet-keeping rates to estimate Austin’s pet-keeping rate of 63.4%17. Within the city limits of Austin, there are three animal shelters that provide the majority of services for unhoused companion animals. Austin Animal Center (AAC) is the publicly funded municipal shelter for the city, whereas Austin Pets Alive! (APA) and the Austin Humane Society (AHS) are private, nonprofit facilities that provide the largest percentage of remaining companion animal relinquishment and/or adoption opportunities within the city. Through transfer partnerships among the three shelters, and with an extensive network of rescue groups in the area, the city of Austin serves over 31,000 companion animals each year18. For the purposes of the impact analysis as it pertains to the implementation of Resolution 20091105-040, this study documented the specific processes of two of these three major sheltering organizations, AAC was selected because it was the primary shelter impacted by Resolution 20091105-040. APA was selected due to its role as a formal partner to AAC in increasing lifesaving for those animals most “at risk” (of euthanasia), both prior to and following the Resolution. These two organizations represent a significant majority of the sheltering available for animals in Austin, with AAC and APA handling a combined 68% of all animals sheltered in the city in 2016 (Figure 1). 17 Due to the limitations of existing data on rates of pet-keeping, comparisons of pet-keeping rate prior to the implementation of the Resolution and following the Resolution could not be calculated. 18 http://www.austinhumanesociety.org/about-us/about_faqs/ 8 Figure 1. The dynamics of intake and outcomes within two of Austin’s primary animal shelters in 201619. Percentages represent the portion of all animals taken into the care of AAC and APA that were documented within the intake or outcome category. Austin Animal Center Overview AAC is one of the largest publicly-funded, municipal animal shelters in the United States that aligns itself with the “No Kill” shelter management practices20 under municipal mandate. In 2016, AAC took in over 16,000 animals21. The shelter operates largely as an open admission facility, with the exception of times in which sheltered animal volume is high (this operational model as a result of Resolution 20091105-040 is described in greater detail in the “Shelter Management and Outcomes” section of this report). As a component of the implementation plan for Resolution 20091105-040, AAC established a formal partnership with APA to serve Austin’s most at-risk (of euthanasia) companion animals. Austin Pets Alive! Overview APA is a privately funded, 501(c)(3) non-profit organization that was reorganized in 2008 as a companion animal rescue focused on serving the populations of dogs and cats that were most at risk to be euthanized at AAC prior to the passage of Resolution 20091105-040. Those identified as most at-risk included: puppies with parvovirus, neonatal orphaned kittens, cats with ringworm or feline leukemia, large adult dogs, and animals requiring significant behavioral and/or medical treatment. As a result of its early focus on these challenging populations, APA has a collection of innovative programs designed to support medical and behavioral challenges that were previously considered grounds for euthanasia. APA’s medical clinic operates on a model of cost-effective care 19 Based on animal intake and outcome data provided by AAC and APA. http://www.nokilladvocacycenter.org/uploads/4/8/6/2/48624081/no_kill_101.pdf 21 AAC intake data 20 9 for critically injured and ill dogs and cats. The behavior program is designed for the enrichment and stress relief of dogs with extended stays and includes daily playgroups as well as Canine Good Citizen training and certification22. To facilitate adoption of its animals, APA utilizes on-site matchmakers with intimate knowledge of individual animals, an extensive foster care network that makes animals in off-site care available to potential adopters, and virtual fosters who support APA staff in communicating with potential adopters. APA does not offer owner relinquishment services. Therefore, the animals available for adoption at APA are comprised of transfers from AAC, other local shelters, and increasingly, other shelters in Texas. APA also accepts animals from the Positive Alternatives to Shelter Surrender (PASS) program offered through AAC and APA’s websites (described in more detail in the “Shelter Management and Outcomes” section). In 2016, APA took in over 7,000 animals, many of which (39%) came as transfers from AAC23. History of City of Austin’s Resolution 20091105-040 Historically, Austin’s municipal shelter (formerly located at Town Lake Animal Center, and now AAC) had an exceptionally low rate of live outcomes for animals that entered its care. Prior to 1997, nearly all orphaned kittens and puppies under the age of eight weeks, dogs with parvovirus, and cats with ringworm were euthanized at the time of intake. The Live Release Rate (LRR) (defined as the percentage of animals leaving the shelter alive, no matter what their health or behavior status, through adoption, return to owner, or transfer) during this time frame is estimated to have been approximately 15%. In 1997, Austin’s animal welfare leaders came together to evaluate these outcomes and worked with the Austin City Council to pass the No Kill Millennium resolution (City of Austin Resolution No. 971211-4124). This resolution stated that the city’s Animal Advisory Commission would work with the group of citizens organized under the name Austin Pets Alive! to take steps towards ending the killing of adoptable sheltered companion animals by the year 2002. In Austin, the Animal Advisory Commission is responsible for: advising the city council and the Travis County Commissioners Court on compliance with Texas Health and Safety Code; advising the city council on animal welfare policies and on budget priorities identified by the Commission and the community; promoting collaboration between the City and interested parties relating to animal welfare in the city; identifying proactive, creative approaches to engage and facilitate communication within the animal welfare community; and fostering and assisting the development of animal welfare programs in the community25. In accordance with best practices in reducing companion animal populations, substantial resources were committed at this time towards accessible 22 http://www.akc.org/dog-owners/training/canine-good-citizen/ APA intake data 24 http://www.austintexas.gov/edims/document.cfm?id=131520 25 https://austintexas.gov/aac 23 10 spay/neuter services26,27,28,29. As a result of this initial resolution, the LRR was reported to have increased to 50% by 200530. In January of 2009, the efforts to continue to increase Austin’s LRR were renewed with Resolution No. 20090115-05931, which provided a directive to the Animal Advisory Commission to “evaluate and make recommendations on policies and programs proven to be effective at reducing the killing of homeless animals, including, but not limited to, policies and programs related to reducing the intake, and increasing live outcomes, of sheltered animals.” As a result of this directive, Resolution 2009110504032, commonly referred to as the “No Kill” resolution, was passed in November of 2009. This resolution directed the City Manager to operationalize the Animal Advisory Commission’s recommendations, one of which committed the city to achieving a 90% LRR33,34,35. The implementation plan for achieving this goal (approved March 11, 2010) included: an immediate moratorium on the euthanasia of animals if there were available kennels at the municipal facility; redefining the mission of the Austin Animal Services (AAS) department; transitioning the municipal facility out of the Town Lake Animal Center (TLAC)36 to the AAC facility (built in 2011); offering off-site adoptions; increasing medical capacity; hiring full-time companion animal behaviorists; revising the relinquishment processes to require counseling appointments; expanding the foster care program; enhancing spay/neuter outreach; returning stray cats to their source communities; increasing relationships with rescue groups; and increasing public awareness through marketing campaigns. An additional Resolution was passed in March of 2010 (Resolution No. 20100311-02137) to include supplemental funding for programs that were believed to be contributing to the increase in City of Austin’s LRR, including off-site adoptions, on-site veterinary and behavior staff, stray cat relocation field services, and spay/neuter outreach. The process of gaining public support for the resources needed to achieve the goal of 90% live outcomes for all animals at the municipal facility did not proceed without resistance38,39. The “No Kill” movement has emerged as a contentious issue across local and national animal sheltering communities, generating critical discussion around topics of data collection, reporting of outcomes, and best practices in animal 26 Frank, J.M., Carlisle-Frank, P.L. (2007). Analysis of programs to reduce overpopulation of companion animals: Do adoption and low-cost spay/neuter programs merely cause substitution of sources? Ecological Economics, 62. 740-746. 27 Frank, J. (2004). An interactive model of human and companion animal dynamics: the ecology and economics of dog overpopulation and the human costs of addressing the problem. Journal of Human Ecology 32 (1), 107-130. 28 Hodge, G.H. (1976). The reign of dogs and cats’ or contemporary concepts of animal control. Management Information Service Report 8 (10), 1-20. 29 Clancy, E.A., Rowan, A.N. (2003). Companion animal demographics in the United States: a historical perspective. The state of the Animals II: 2003. Humane Society of the United States, Washington DC. 30 https://www.austinpetsalive.org/2016/07/history-of-no-kill-part-1/ 31 http://www.austintexas.gov/edims/document.cfm?id=125481 32 http://www.ci.austin.tx.us/edims/document.cfm?id=131732 33 http://www.austintexas.gov/sites/default/files/files/Animal_Services/priority_recs_0211.pdf 34 http://www.austintexas.gov/sites/default/files/files/Animal_Services/aac_no_kill_implementation_plan.pdf 35 http://www.austintexas.gov/sites/default/files/files/Animal_Services/aac_report.pdf 36 Green, A. (2015, December 11). Austin moves forward with plans to expand Animal Center. My Statesman. Retrieved from: http://www.mystatesman.com/news/local/austin-moves-forward-with-plans-expand-animalcenter/hxs5K7DhkSQoofm8WIPnsM/#95e1573e.3594764.735717 37 http://www.austintexas.gov/edims/document.cfm?id=135138 38 http://www.americanpetsalive.org/wp-content/uploads/2012/11/how_apa_started.pdf 39 http://www.ci.austin.tx.us/edims/document.cfm?id=134839 11 care and welfare40. The implementation of Resolution 20091105-040 and the programmatic changes required to maintain a 90% LRR for animals entering into Austin’s municipal facility required increases to the city budget, ongoing renovations to the AAC facility, and an increased demand for community volunteers to perform the various animal care responsibilities of the shelter. Concerns around restricted intake of animals, increased lengths of stay, higher costs per sheltered animal, and an increased burden on surrounding communities remain topics of interest when evaluating the impacts of the shift in sheltering operations as a result of Resolution 20091105-040. Despite the success of the city in achieving and exceeding their 90% LRR goal following the implementation of the Resolution in 2010, an audit of Austin Animal Services conducted by the City of Austin in April of 2015 identified the existence of several of the concerns described above. The audit concluded: “(Austin) Animal Services does not have sufficient facilities and resources allocated to meet the 90% live outcomes goal and remain in line with State requirements41 and industry best practices.” Factors informing the audit’s conclusion included lack of appropriate housing units, inadequate staffing for the various programs and services, inappropriate cohabitation of animals, extended length of stays, and extended response times to animal control/protection calls42. An important lesson learned from the experience in Austin is the importance of capacity-building prior to implementing such a dramatic shift in procedures. This shift in operations (specifically the increased number of animals housed and the moratorium on euthanasia for space considerations) likely contributed to the issues identified in the 2015 audit, which AAC was then able to respond to by implementing a variety of operational changes. The changes included: increased staffing in areas of animal care, increased kenneling and foster capacity, and improved communication with the community around issues of animal protection officer response time as well as the situations that require limited or managed admission of relinquished animals. Each of these components represents an area of organizational capacity that can be optimized to improve the LRR across a variety of sheltering systems. Now seven years into the implementation of Resolution 20091105-040, the City of Austin and its animal welfare organizations, partly in response to the city audit, continue to work to improve the operational effectiveness of its shelters in the interest of providing high-quality veterinary and behavioral care to unhoused animals. In January 2014, the city designated $5.5 million to build 100 new kennels to address overcrowding at AAC43. These kennels were under construction at the time of this report (October 2017). Furthermore, AAC has more recently revised its intake processes to include a shift in orientation to a community resource model. Within this new framework, patrons seeking services at the shelter are first connected to the services that can be offered through other community partners and then offered surrender services at the municipal shelter should all other resources be exhausted44. By identifying the existing community assets that support pet-keeping and serving as a conduit to these resources, AAC 40 https://www.austinchronicle.com/news/2011-02-18/safety-net-or-dead-end/ The specific state requirements that Austin Animal Services was allegedly in violation of were not cited in the body of the Animal Services Program Audit. 42 City of Austin (2015, April). Animal Services Program Audit. Retrieved from: http://austintexas.gov/page/archiveauditor-reports. 43 http://www.fox7austin.com/news/664050-story 44 https://www.austinchronicle.com/news/2016-12-23/five-years-of-no-kill-in-austin/ 41 12 expects to continue improving the number of live outcomes at the municipal facility by decreasing the number of animals that are taken into the shelter each year. While the concerns of the city audit are being addressed and integrated into AAC’s operations, the extended animal welfare community continues to engage in critical dialogue around the costs versus the benefits of shelter operations that are aligned with the “No Kill” philosophy, including the ethical issue of potentially stressful increases in length of stay for animals that may have previously been euthanized 45,46. While the issue of adopting the practices that are prescribed under Resolution 20091105-040 is subject to each individual community’s availability of resources and to their own preferences or policies that guide animal welfare initiatives, the following report will present a unique data-based assessment of the economic, public health, and social impacts of the shift in shelter operations in Austin and the surrounding area of Travis County, Texas that resulted from the implementation of the legislation. Impact Assessment Methodology Operations Analyses This impact assessment has been conducted within an ecological economics paradigm that recognizes that looking at strictly economic inputs and outputs of an issue cannot capture the more complex social or intrinsic value of humane policies. A socialenvironmental-economic impact assessment is an interdisciplinary evaluation of the potential impacts of a given policy, event, or organization on a community’s well-being. For the purposes of this impact assessment, “well-being” is conceptualized in a holistic manner to include socio-economic, physical, mental/emotional, and environmental health, with consideration for the distribution of effects as well as the overall impacts. The current research in impact assessment explores how solving environmental problems like pet homelessness or human health disparities cannot be entirely accounted for using strictly economic analyses, but are more effectively addressed through a discussion of the importance of specific impacts when compared with others47,48,49,50. In this study, the question of whether the increased economic costs of extending the time and resources an animal is allocated in a shelter is a reasonable model for other cities to incorporate is a question that cannot be addressed uniformly. There are a variety of factors that determine the effectiveness of a sheltering organization, including leadership, funding, relationships with surrounding shelters and rescues, the presence of ordinances that promote animal welfare in the community, and the engagement of local community members in animal welfare issues. An ecological systems approach to understanding these complex sheltering systems can contribute to 45 http://www.whypetaeuthanizes.org/quotes/ http://blogs.bestfriends.org/index.php/2011/01/25/petas-better-off-dead-philosophy/ 47 Soderbaum, P. (1999). Values, ideology, and politics in ecological economics. Ecological Economics, 28. 161-170. 48 Franks, D., Vanclay, F. (2013). Social Impact Management Plans: Innovation in corporate and public policy. Environmental Impact Assessment Review 43, 40-48. 49 Jay et al. (2007). Environmental impact assessment retrospect and prospect. Environmental Impact Assessment Review 27, 287-300. 50 Vanclay, F. (2004). The Triple Bottom Line and Impact Assessment: How do TBL, EIA, SIA, SEA and EMS relate to each other? Journal of Environmental Assessment Policy & Management 6(3), 265-288. 46 13 a more robust assessment of the attributing factors by evaluating their impacts on an individual (micro), organizational (mezzo), and community-wide (macro) level51,52,53. Points of analysis for this assessment include existing data from public health and other government agencies, qualitative responses from surveys administered in the city of Austin, and data provided by two of the primary agencies involved in operationalizing Resolution 20091105-040 (AAC and APA). This process of integrating research evidence, local data, and the knowledge of stakeholders, particularly members of the affected communities, is congruent with impact assessment industry standards54. Data were analyzed using multiple methodologies, including time series event methods such as using before/after analyses (where data from after the implementation of Resolution 20091105-040 through present (2010-2016) were compared to data from prior to the legislation (2005-2009)); and cross-sectional comparisons. These methods were used to identify the potential impacts of the Resolution on the various systems that influence the well-being of both the human and companion animals in the city of Austin and greater Travis County. In general, linear regression analysis was used to identify simple monotonic increases or decreases in trends in the data over time. Slopes with P values less than 0.05 were considered to have slopes significantly different than zero, and the slope is reported as the average change per year. Slopes with P values greater than 0.05 were considered to represent trends that had not changed significantly over the study period. T-tests were used to identify statistically significant differences between blocks of data (for example, pre- versus post-Resolution). Economic Analyses Economic impact analyses are used to estimate the impact of a new activity on a region. The economic impact model used for this report begins with a static delineation of payments between a regional economy’s primary institutions (firms, households, and governments). The system of economic impacts can be understood by linking the dollar outputs from a given industry (in this case, animal shelters) to the dollar inputs required from supporting industries (e.g., wholesale purchases of supplies, veterinary equipment purchases, etc.) and the dollar inputs required from households (e.g., labor services in the form of veterinarians, administrative, and support staff). In this way, every dollar of a new output from an industry can be connected to the level of new support required from related industries and regional households. Economic impacts are estimated as responses to an external stimulus such as new economic activity. The change in final demand for regional production triggered by the stimulus is referred to as the direct effect. In order to accommodate the newly demanded output (e.g., animal adoption, welfare, and educational services), the producers in turn require additional support from their suppliers, and in order for these suppliers to accommodate the new demand, they in turn increase purchases according 51 Bronfenbrenner, U. (1977). Toward an experimental ecology of human development. American Psychologist, 32(7), 513. 52 Prenzel, P., Vanclay, F. (2014). How social impact assessment can contribute to conflict management. Environmental Impact Assessment Review 45, 30-37. 53 Saarikoski, H. (2000). Environmental impact assessment as collaborative learning process. Environmental Impact Assessment Review 20, 681-700. 54 Mindell, J.S., Bolton, A., Forde, I. (2008). A review of health impact assessment frameworks. Public Health, 122. 1177-1187. 14 to the relationships in the economic model from their supporting industries, and so on. The iterative process of economic increase in output is referred to as the indirect effects of the original stimulus. In addition to indirect effects, an additional layer of economic impact is realized as workers from all levels of the process spend a portion of their additional labor income (and non-labor income). This household spending creates new demand (a second stimulus) from households supporting industries (e.g., health services, retail purchases, food services, etc.) that sets in motion successive economic activity as described previously. The aggregate process of economic activity from household spending is referred to as the induced effects of the initial stimulus. To analyze the economic impact of AAC and APA’s shelter operations, this study utilized an IMPLAN methodology known as Analysis-by-Parts (ABP)55, which provides more control over the analysis than the standard industry change methodology and allows for more tailored and accurate outputs. ABP facilitates the analysis of the direct, indirect, and induced effects separately to reflect the lack of proprietor income in the nonprofit and government sectors. For the purposes of calculating the economic impacts of the shelters’ operations, IMPLAN’s pre-set industry code data56 were refined using the additional ABP methodology to increase the sensitivity of the calculations to sheltering-specific effects. Pet care and retail spending were not calculated using IMPLAN because the pre-set categories within the software (industry codes) do not align to the specificity of pet-related services and could not be adjusted sufficiently using the additional ABP methodology. When calculating the total economic impact across the two shelters of interest, 100% of the impact created by the financial activities of APA, and only 3.9% of the impact created by AAC were attributed to the Resolution. While APA was a leader in establishing the standards outlined in the implementation plan, the organization would not have its current impact on the city (financially and otherwise) but for the Resolution. Only 3.9% of the total 2010-2016 impact of AAC was attributed to the Resolution because, as a municipal facility, AAC would still have continued its operations regardless of whether the Resolution had been implemented or not (the calculation of this factor is presented in the Impacts on Veterinary and Pet Services section). Overall, the conclusions presented in this report are consistent with the most conservative possible measure of the data. Understanding the total impacts of Resolution 20091105-040 is particularly relevant insofar as the legislation continues to be a matter of contention within the animal welfare field. The University of Denver’s Institute for Human-Animal Connection (IHAC) is a leading academic center with a robust research agenda aimed at advancing the understanding of the role of the human-animal bond across the lifespan at the individual, organizational, and community level. IHAC’s mission is to intentionally elevate the value of the living world and the interrelationship and health of people, other animals and the environment. This is accomplished through natural and social science55 Economic impact models that estimate the impact of new economic activity based on current linkages between the inputs required from supporting industries and the outputs they support, are known as Input-Output (IO) models. IO models assume a fixed production relationship between inputs and outputs and sufficient slack in the affected markets as to leave prices fixed. The most common IO model application is IMPLAN (IMPLAN, Inc., Huntersville, NC), a data and modeling service commonly used in universities, governments, and economic development agencies to assess the economic impacts of new and existing industry activity. The IMPLAN model application provides a baseline model of state and regional economies. 56 The IMPLAN Annual Subscription to Travis County, TX specific-data was used for the economic modeling. 15 informed research, education, applied knowledge, and advocacy, with an ethical regard for all species. The Institute’s location within the University of Denver’s Graduate School of Social Work gives it access to a breadth of theoretical and practical knowledge across the social sciences, while also providing the appropriate level of academic objectivity needed to evaluate a policy with many invested parties. This academic perspective informs IHAC’s advocacy for evidence-based best practices and policies aligned within its framework of Social Science-Informed Animal Welfare – a framework that emphasizes the importance of addressing the role of human behavior in animal welfare issues. IHAC conducts impact assessments on a variety of animal welfarerelated issues in order to inform policy makers at the municipal, county, state, and national level on the positive contributions companion animals make to communities, thereby supporting the establishment of more data-informed animal welfare policies in communities with traditionally high barriers to enacting such legislation. The following report represents a comprehensive assessment of such a policy using a toolset that can be applied to other animal related legislation impact studies in other communities. Community Impact Assessment Results Impacts on Shelter Management and Outcomes Intake The greatest changes to AAC’s shelter operations as a result of Resolution 20091105-040 were the moratorium placed on euthanasia and the resulting need for shifts in procedures for intake. In order to address the increase in the number of animals that would be housed rather than euthanized, the implementation plan for the Resolution included a shift to scheduled intake appointments for any owner surrenders57. The management of admission at AAC through these appointments occurs along a continuum that is dependent upon the availability of on-site kennels or community-based foster families, the potential for obtaining a transfer placement, and the intake of animals from the previous day. AAC currently utilizes a coding system to help determine how many owner surrender appointments can be accommodated on a given day and how many animals are to be transferred to shelter or rescue partners such as APA. The intake coding system (formalized in 2016) communicates the admission status of the shelter both internally to staff members and partner organizations and externally to community members who may wish to surrender their animal. The “green” level of intake is equivalent to what many animal welfare organizations would refer to as “open admission” in which all owner surrendered animals are admitted to the shelter following a relinquishment counseling appointment. The “yellow” level serves as an indicator that kenneling capacity is reaching its limit and results in an increase in communication to community members, either through social media or various news outlets, that there is a need for temporary foster placements or increased rate of adoption. In “yellow” there are also some restrictions on owner surrender appointment 57 https://www.austintexas.gov/sites/default/files/files/Animal_Services/priority_recs_0211.pdf 16 availability. The “red” level of intake restricts intake to, on average, 50% of what can be admitted on a “green” admission day, in which only stray animals whose homes cannot be located or community member’s animals with circumstances for surrender that are elevated to the emergency status are prioritized and all other surrender appointments may be deferred until a yellow or green intake level is restored. In its first official year of implementation (2016), AAC intake was under the “yellow” status for a total of 30 days and the “red” status for 15 days. These varied levels of intake ensure any animals admitted to the municipal facility will either receive appropriate care while being housed at the shelter (as defined by Resolution 20091105-040), or will remain in more temporary placements until the shelter is able to offer them a space in the facility. The total intake at a shelter is influenced by owner surrender, strays turned in either by the public or by animal protection services, and animals that are transferred in from other facilities. The trends in the various components of AAC’s intake and outcomes have been evaluated using data provided by AAC and APA from 2005 to 2016 (Figure 2). During that period, the trend in total dog intake has decreased by an average of 362 animals per year (P < 0.001) to approximately 10,000 dogs in 2016. Similar results are seen when comparing total dog intake before and after 2010 using a t-test analysis, with total intake from 2010-2016 (M = 10,881, SD = 744) significantly less (P < 0.001) than total intake from 2005-2009 (M = 13,079, SD = 666). Similar to dogs, the trend in total cat intake from 2005 to 2016 has decreased by an average of 207 animals per year (P = 0.036) to approximately 7,000 in 2016. However, this trend was not detected in a t-test analysis, with total cat intake prior to the implementation of the Resolution (2005-2009) (M = 8,697, SD = 1,189) not varying significantly (P = 0.088) from total cat intake following the implementation of the Resolution (2010-2016) (M = 7,451, SD = 888). The trend most directly impacted by the implementation of the Resolution is that of owner surrender at AAC (Figure 2). The reasons for relinquishment of dogs and cats to animal shelters offered by patrons at intake include behavior or medical concerns for the animal, an individual caretaker’s own financial or social limitations, or a limited goodness-of-fit between the animal and the caretaker’s lifestyle58. These individual human and/or companion animal challenges may also be compounded by larger structural issues such as accessibility of pet-supportive services, availability of petfriendly housing, and/or the presence of city-wide restrictions on particular breeds. 58 Coe, J., Young, I., Lambert, K., Dysart, L., Nogueira Borden, L., Rajić, A. (2014) A Scoping Review of Published Research on the Relinquishment of Companion Animals, Journal of Applied Animal Welfare Science, 17:3, 253273. 17 AAC Owner Surrender Intake 4500 4000 # of Animals 3500 3000 2500 2000 1500 1000 500 0 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Cats Dogs Figure 2. Total annual intake through owner surrender of dogs and cats at AAC from 2005 to 2016. Dataset is provided in Appendix C. Overall, there has been a decrease in the trend of owner surrendered animals at AAC. Dog relinquishment from 2005-2009 (M = 3,382, SD = 159) and from 2010-2016 (M=2,447, SD=546) differed significantly using a t-test analysis (P = 0.003). Cat relinquishment from 2005-2009 (M = 3,162, SD = 471) and from 2010-2016 (M = 1,966, SD = 703) also differed significantly using the same analysis (P = 0.005). While it is not possible to assign a specific source for the changing trends in total intake, potential drivers of the decreased rates of surrender include: the periods of managed admission at AAC that limit number of animals admitted through surrender appointments, increased social awareness of responsible pet-keeping practices as a result of the legislation, or improvements across Austin on issues that drive relinquishment such as pet-friendly rental housing, access to veterinary care, or behavioral training support services. While owner surrender is offered at AAC as shelter capacity allows, as a municipal facility, the primary purpose of AAC is to provide ongoing animal protection services, including housing lost or stray animals and housing those animals seized through cruelty or neglect investigations. Operationally, stray animals are brought into the shelter’s care either by community members who bring them to the facility or by the animal protection officers who conduct field services for Travis County. Analysis of stray dog intake from 2005 to 2016 identified a trend in number of stray dogs that decreased by an average of 147 animals per year (P = 0.008) to approximately 7,000 dogs (Figure 3). A t-test analysis of stray dog intake from 2005 to 2009 (M = 8,525, SD = 565) compared to stray dog intake from 2010 to 2016 (M = 7,405, SD=321) found a significant decrease (P = 0.008) following the Resolution. Although the management of admission as a result of the Resolution does not include changes to how stray animals are received from community members or animal protection officers, the decreasing 18 trends in number of stray dogs brought into the shelter since the implementation of the Resolution may reflect any of the following practices that have been reported: decreased pick-up of stray dogs by animal protection officers, increased effectiveness of return to owner processes such as microchipping or field returns offered by animal protection officers, or an overall decrease in the number of animals that the community has lost. However, the trend in stray dog intakes as a percentage of total intake has increased by 0.8% per year since 2005 (P = 0.007), with 72% of all AAC’s dog intake in 2016 being classified as strays (data provided in Appendix C). This increase in percentage is, at least in part, affected by the decrease in owner surrender. In contrast to dogs, stray cat intake had no statistically significant change in the trend between 2005 and 2016 at an average of 4,497 cats per year (P = 0.194). A t-test analysis of stray cat intake from 2005 to 2009 (M = 5,024, SD = 885) compared to stray cat intake from 2010 to 2016 (M = 5,221, SD = 719) confirms that there has been no significant change in stray cat intake as a result of the Resolution (P = 0.693). However, similar to that seen in dogs, the trend in stray cat intake as a percentage of total intake increased by 2.9% per year since 2005 (P < 0.001) to approximately 76% in 2016. AAC Stray Animal Intake 10000 9000 8000 # of Animals 7000 6000 5000 4000 3000 2000 1000 0 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Cats Dogs Figure 3. Total annual intake of stray dogs and cats at AAC from 2005 to 2016. Dataset is provided in Appendix C. Overall, the trends seen in intake from 2005 to 2016 reflect an overall decrease in number of animals in the care of AAC, with the animals who are at AAC being more likely to have come into the shelter as a stray rather than as a transfer from another organization or as an owner surrender. These data indicate that while the management of intake has impacted the total number of dogs taken into AAC, including the number of dogs surrendered by the owner, the total number of cats taken in has not changed significantly (as assessed by the t-test) since the Resolution was implemented. It is important to note that other dynamics in a community around keeping cats as pets, 19 including the effectiveness of spay and neuter services or community cat programs, can impact a municipal shelter’s cat intake numbers. The implications of AAC’s shift in management practices as a result of Resolution 20091105-040 include a new emphasis on creating a continuum of pet-supportive services provided to Austin residents that include but are not exclusively provided by the city’s municipal facility. When admission levels are “green” community members seeking to surrender their pet are able to do so following an appointment with a relinquishment counselor, whereas when admission levels are “red” there is a much greater emphasis on supporting community members in identifying alternatives to surrendering to the shelter. Instead, community members who identify a need to surrender their pet are asked to attempt to rehome the animal on their own or to keep their pet in their home, a family member’s home, or a friend’s home until capacity is freed in the shelter. This practice could be considered a mechanism through which community members are asked to remain accountable for practicing “responsible” petkeeping, but it is also possible that animals not admitted when owners request to surrender them are then either taken to shelters in surrounding areas or abandoned in the community. While the management of admission has significantly decreased the total number of animals taken in at AAC, public information request data obtained from the areas surrounding Travis County (San Marcos County, Bastrop County, and Williamson County) indicate that just 37 of the animals that came into their shelters between 2010 and 2016 reported an originating Travis County zip code (including RTO animals). These data indicate that the management of admission is not resulting in Travis County community members relinquishing to shelters outside of Austin, and therefore negatively impacting the sheltering operations of surrounding communities. Additional data obtained through public information request indicated that there is no statistically significant difference in the number of dead companion animals picked up by City of Austin Solid Waste Services before (M = 874, SD = 321) and after (M = 862, SD = 174) the passage of Resolution 20091105-040 (P = 0.936) (Figure 4)59. Therefore, although the periods of managed admission likely affect the overall companion animal outcomes to some extent in Austin and Travis County, the impacts are not substantial enough to be identified within existing data sources. These trends are presumably influenced by factors including community response to the admission coding system and the low percentage of time AAC is under a yellow or red admission code (12% of days in 2016). 59 Public Information Request - City of Austin Solid Waste Services 20 Travis County Dead Animal Pick Up 800 700 # of Animals 600 500 400 300 200 100 0 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Cats Dogs Figure 4. Annual number of dead animals picked up in Travis County from 2004 to 2016. Dataset is provided in Appendix D. Another program that is likely affecting animal intake at AAC is Positive Alternatives to Shelter Surrender (PASS)60. This program, managed by AAC and APA, serves as an informal resource for community members who are looking to either rehome their companion animal or are seeking services like veterinary care or behavioral support in order to prevent a need to surrender their animal. The program offers “individual consultation, education, troubleshooting, and financial support” for those who call the PASS help line that is listed on both AAC and APA’s website. While many of the community members who utilize PASS’ services are able to forgo surrender, the program also has the option of surrendering the animal, in which case these animals may then enter into the care of APA or indeed be surrendered to a shelter. In 2016, APA took in 734 dogs and 740 cats through PASS (Appendix E). These numbers have increased significantly since 2012, with the number of dogs taken in through PASS increasing by approximately 98 dogs per year (P < 0.001) and number of cats taken in through PASS increasing by approximately 80 cats per year (P = 0.010). This may be an indication of the willingness of community members to utilize services other than the traditional owner surrender process offered at the city’s municipal shelter. This program may also be driving the decrease in number of animals surrendered to AAC. Outcomes Resolution 20091105-040 includes a specific attention to live outcomes for animals that enter into the care of AAC rather than the historical practice of euthanasia 60 https://www.austinpetsalive.org/get-pet-help/pass/ 21 in times when either the shelter was at high capacity or when the animal could not be more immediately adopted out due to medical or behavioral challenges. Shelters can influence outcomes through a variety of programs that include online and social media platforms to market the animals available for adoption, utilization of transfer networks to increase total capacity to serve animals that may come into the shelter’s care, and animal protection field services such as microchip identification or improved in field return to owner services. Due to the integral nature of the partnership between AAC and APA, devised during the design and implementation of the Resolution as a means to streamline the process of achieving live outcomes for Austin’s sheltered animals, the two organizations’ outcome data were aggregated for analysis (Figure 5). Trends in AAC and APA Outcomes 18000 16000 # of Animals 14000 12000 10000 8000 6000 4000 2000 0 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Adoption RTO Transfer Shelter Euthanasia Other Outcome Figure 5. Annual outcomes for dogs and cats that entered into the care of AAC and APA from 2005 to 2016. Those represented as “transfers” were animals transferred to a shelter or rescue organization other than APA. The “other” category includes missing animals, those who died in care, or otherwise unaccounted-for animal outcomes. Dataset provided in Appendix F. The primary outcome for animals in the care of AAC and APA is adoption. The overall rate of adoptions of both dogs and cats out of these organizations has increased over the study period of 2005 to 2016, even when adjusting for the growth in human population in Austin (Figure 6). There was a significant increase (P < 0.001) in the trend in dog adoptions from 2005 to 2016, with an average increase by 277 dogs per year. A t-test analysis comparing the number of dog adoptions from 2005 to 2009 (M = 2,507, SD = 176) to the number of dog adoptions from 2010 to 2016 (M = 4,361, SD = 458) identified a statistically significant increase (P < 0.001) following implementation of the Resolution. However, from 2010 to 2016 there was no significant change (P = 0.482) in the trend in dog adoptions, remaining constant at an average of 4,412 dogs adopted. 22 The pattern in adoption trends for cats is similar to that for dogs. There was an overall significant increase (P = 0.002) from 2005 to 2016 with an average increase of 196 cats per year, but most of this increase occurred prior to implementation of the Resolution. Like dogs, a t-test analysis comparing cat adoption numbers from 2005 to 2009 (M = 1,913, SD = 184) to those between 2010 and 2016 (M = 3,169, SD = 627) indicates that the number of cats adopted increased significantly (P = 0.001) following implementation of the Resolution. However, from 2010 to 2016 there was no significant change (P = 0.443) in cat adoptions, remaining at an average of 2,736 cats adopted per year. These findings are notable insofar as adoption is an important mediator of the capacity of a sheltering facility. An increased rate of adoption places dogs and cats in homes as pets and is a factor that determines the shelter’s space to serve additional animals from the community. This increase in capacity has been correlated with a decreased rate of euthanasia61. Adoptions per 1,000 Residents AAC and APA's Adoptions (per 1,000 Human Residents) 7.00 6.00 5.00 4.00 3.00 2.00 1.00 0.00 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Cats Dogs Figure 6. Rates of adoption with adjustment for the growth of the human population in Austin (shown here as number of adoptions per every 1,000 human residents of Austin). The amount of adoption, given the increase in human population, has increased since the passage of Resolution 20091105-040. Data set provided in Appendix F. The overall increase in adoptions of dogs and cats over the study period may be a result of increased interest within the community in adopting pets, improved social awareness of the animal welfare initiatives of Austin, or improved marketing processes of the individual organizations. Some of the programs that contribute to increased adoptions were in place prior to 2010, but the coordination of these programs across AAC and APA was formally implemented following the Resolution. Therefore, the stabilization of adoption rates since the Resolution may reflect that the processes 61 Hawes, S., Camacho, B., Tedeschi, P., Morris, K. (in press). Trends in intake and outcome data for animal shelters in Colorado, 2000 to 2015 – another eight years out. Journal of American Veterinary Medical Association. 23 formalized by the legislation have been effective in sustaining the overall adoption rate despite the variety of resulting operational changes made to the organizations. It’s important to note that outcome rates at AAC are heavily impacted by the transfer of animals to APA, and therefore it cannot be concluded that AAC trends in adoption alone have been sufficient to meet the requirements of the Resolution. Rather, the combined rates of adoption at both AAC and APA have supported AAC’s ability to maintain a 90% LRR. A factor that may inform the increased rates of adoption of both dogs and cats is the incidence of adoption by individuals or families who report that they reside outside of Travis County (Figures 7 and 8). By reaching potential adopters outside of the Austin or Travis County community, both AAC and APA increase the potential of finding a home for the animals in their care. Increased rates of adoption to non-Travis County zip codes may be an indicator of the success of Austin’s shelters’ social media and marketing campaigns, but may also be negatively impacting adoption rates from shelters in surrounding counties. While data obtained through public information requests on surrounding communities demonstrate that the increased rates of adoptions to individuals and families who reside outside of Travis County have not resulted in an impact on the intake rates of shelters in surrounding communities62, data could not be obtained from these surrounding counties on how the increased rate of adopters from outside of Travis County has impacted these other shelters’ adoption rates. AAC Adoptions Outside of Travis County as a Percentage of Total AAC Adoptions % of Total AAC Adoptions 25% 20% 15% 10% 5% 0% 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Figure 7. Annual percentages of all animals adopted out of AAC that are adopted to people who reported that they reside in a non-Travis County zip code on their adoption application. 62 Data obtained from the areas surrounding Travis County (San Marcos County, Bastrop County, and Williamson County) indicate that just 37 of the animals that came into their shelters between 2010 and 2016 reported an originating Travis County zip code (this is including RTO animals). 24 APA Adoptions Outside of Travis County as a Percentage of Total APA Adoptions 24% % of Total APA Adoptions 22% 20% 18% 16% 14% 12% 10% 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Figure 8. Annual percentages of animals adopted out of APA that are adopted to people who reported that they reside in a non-Travis County zip code on their adoption application. Adoption rates are optimized through community engagement with the shelters and also by the effectiveness of the shelters’ programs in treating any medical or behavioral challenges that may make placement in a suitable home difficult. As APA receives a majority of AAC’s highest risk (of euthanasia) animals, return rates of animals adopted from APA is a potential indicator of the effectiveness of the programming provided while the animals are in the shelter’s care. In 2016, APA adopted out 6,981 animals, with 819 of these animals returned (12%). Of these animals returned after adoption, there were 34 dogs (0.5%) and 55 cats (0.8%) returned for behavioral challenges that APA was aware of, and had informed the adopter of, prior to adoption. The remaining animals who had been adopted and were then returned were brought back for a variety of reasons related to a lack of goodness of fit between the animal and the adopter. This return rate, particularly the low rate of returns for an animal’s existing challenges, indicates that APA does not appear to be adopting out “unsafe” animals into the community. These trends are also consistent with the literature on returned animals insofar as the animals most often returned are males, over the age of six months, and most likely to be returned due to behavioral challenges63. While Resolution 20091105-040 is often described as the “No Kill” resolution, there continue to be instances where euthanasia is practiced at both AAC and APA. While it is no longer practiced for space considerations (referred to as “killing” within the 63 Mondelli, F., Prato Previde, E., Verga, M., Levi, D., Magistrelli, S., & Valsecchi, P. (2004). The bond that never developed: adoption and relinquishment of dogs in a rescue shelter. Journal of Applied Animal Welfare Science, 7(4), 253-266. 25 “No Kill” movement), certain cases of extreme medical or behavioral challenges may result in a euthanasia decision. However, as a result of high-risk (of euthanasia) animals being transferred to APA, improvements in veterinary care and behavioral support, and an increase in available resources to address challenges that previously resulted in high rates of euthanasia, the rate has decreased dramatically at AAC since the implementation of the Resolution in 2010 (Figure 9). Overall, from 2005 to 2016, the trend in dog euthanasia at AAC has significantly decreased (P < 0.001) by an average of 657 dogs per year, and by an average of 144 dogs per year (P = 0.003) since 2010. From 2005 to 2016, the trend in cat euthanasia at AAC has also significantly decreased (P < 0.001) by an average of 655 cats per year, with the number of cats euthanized at AAC from 2010 to 2016 significantly decreasing by an average of 114 cats per year (P = 0.013). A t-test analysis of dog euthanasia at AAC from 2005 to 2009 (M = 5,409, SD = 1,397) and from 2010 to 2016 (M = 972, SD = 872) indicates that dog euthanasia has decreased significantly (P = 0.001) since the implementation of the Resolution. A similar analysis comparing cat euthanasia numbers from 2005 to 2009 (M = 5,446, SD = 1,657) to those from 2010 to 2016 (M = 922, SD = 991) also found a statistically significant decrease (P = 0.002). These findings validate the effectiveness of the changes that resulted from the Resolution in continuing to decrease the number of dogs and cats euthanized each year at AAC. AAC Euthanasia Outcomes 8000 7000 # of Animals 6000 5000 4000 3000 2000 1000 0 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Cats Dogs Figure 9. Annual number of animals euthanized at AAC from 2005 to 2016. Resolution 20091105-040 that included the requirement to reach a 90% LRR was implemented in 2010. The rate of euthanasia at APA, although remaining within the 90% LRR threshold that is required of the municipal shelter, has significantly increased for dogs (P= 0.003) and cats (P= 0.003) since the implementation of Resolution 20091105-040 (Figure 10). From 2008 to 2016 the average number of dogs euthanized increased by 9 dogs per year and the average number of cats euthanized increased by 6 cats per year. This is 26 likely due to the specialized “at risk” population of animals that APA transfers from AAC (AAC transfers consist of 39% of APA’s intake). This illustrates an important consideration for the implementation of “No Kill” policies: LRR is a dynamic metric that is highly dependent on the health and behavior status of animals being brought in by the community and/or through transfer networks. APA Euthanasia Outcomes 100 90 80 # of Animals 70 60 50 40 30 20 10 0 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Cats - - - Dogs - - - Figure 10. Annual number of animals euthanized at APA from 2005 to 2016. Note that APA was reorganized as a rescue organization in 2008. Transfer Partnerships Sheltering networks are emerging as an increasingly important factor informing the effectiveness of animal welfare organizations, insofar as a robust network can provide opportunities to create or expand an individual organization’s capacity to deliver services, increase access to information, and provide a foundation upon which to address issues that affect entire communities64,65. One component of shelter operations utilized by AAC that has greatly increased its capacity to serve their community’s animals is the utilization of organizational partnerships and community members to house animals and/or provide specialized programming. These partnerships optimize AAC’s capacity by permitting the transfer of animals to another facility or home either during low kenneling capacity periods or when there is an animal with especially high need that another organization (such as APA or a foster family) may be more successful in addressing. Furthermore, transfer partnerships allow shelters and rescues that experience intake levels that exceed capacity to find open space for excess dogs and cats at partner facilities instead of euthanizing animals to stay at or below maximum 64 Reese, L.A., Ye, M. (2017). Minding the gap: networks of animal welfare service provision. American Review of Public Administration. 47 (5). 503-519. 65 AHeinz57. Retrieved from: https://www.aheinz57.com/no-kill-vs-traditional-shelters/ 27 capacity66. This practice may result in improved resource allocation within each shelter as well as improved effectiveness of programming as shelters are able to “specialize” in a population. Following the implementation of the Resolution 20091105-040, AAC and APA entered into a formal license agreement that specifically governs the selection of the animals at AAC that will be transferred to APA. Under this agreement, animals coded as “at risk” (for euthanasia) are the animals that must be transferred to APA first in the event AAC reaches its capacity, whereas a secondary code of "attention" is used for those animals that will eventually be transferred due to the animals’ increased need for behavior or medical attention. Operationally, the “at risk” and “attention” lists are emailed to APA daily - animals on the “at risk” list are pulled steadily and those on the “attention” list are pulled as fast as possible. Beyond this coding system that supports AAC’s kennel capacity decision-making, APA regularly conducts "space" pulls when they have additional capacity at their facility. AAC Transfer Outcomes 4000 3500 # of Animals 3000 2500 2000 1500 1000 500 0 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year Cats Dogs Figure 11. Annual number of animals at AAC that were transferred to another shelter or rescue organization (including APA, AHS, and all other shelter or rescue partners of AAC) between 2005 and 2016. Over the entire study period (2005-2016), the trend in the number of dogs transferred by AAC to any of its transfer partners has significantly decreased (P = 0.013), with an average decrease of 129 dogs transferred per year (Figure 11). Within these data, the transfer of dogs to APA has remained relatively consistent since the formal agreement with APA was established at an average of 1,341 dogs transferred per year since 2008 (P = 0.903). However, transfer of dogs to organizations other than APA has significantly decreased (P= 0.006) by an average of 125 dogs transferred each 66 Hawes, S., Camacho, B., Tedeschi, P., Morris, K. (in press). Trends in intake and outcome data for animal shelters in Colorado, 2000 to 2015 – another eight years out. Journal of American Veterinary Medical Association. 28 year. A t-test analysis of dogs transferred to organizations other than APA also indicates that dogs transferred from 2005 to 2009 (M = 1,832, SD = 179) and dogs transferred from 2010 to 2016 (M = 1,197, SD = 274) decreased significantly (P=0.001). In contrast to dogs, the number of cats transferred from AAC to any of its transfer partners during the entire study period (2005-2016) has significantly increased (P= 0.033) at an average increase of 236 cats transferred per year. Similar to dogs, the number of cats transferred out of AAC to APA has remained relatively consistent at 1,239 cats transferred to APA each year (P = 0.201). However, cats transferred from AAC to organizations other than APA increased significantly from 2005 to 2010 at 69 cats per year (P = 0.026) but did not change from 2008 to 2016 at 633 cats per year (P = 0.052). Overall, these trends for both dogs and cats indicate that the transfer partnerships needed to remain in compliance with the Resolution were in place prior to 2010, and that implementing the Resolution required AAC to continue the number of transfers to both APA and other shelters or rescue partners. Foster networks formed within the communities are another partnership that can result in improved outcomes for shelters. In addition to rates of adoption and transfer partners, an expanded network for foster care was needed to increase AAC and APA’s capacity to serve the additional animals resulting from the Resolution, especially those who require extended lengths of stay. The number of fosters a shelter utilizes may also be an indicator of community investment in the work of the shelter. At any time, 35-60% of AAC’s animals may be in a foster placement, whereas about 50% of the animals in APA’s care are likely to be in foster care. This is accomplished by a network of almost 3,000 foster homes registered under the two organizations. Community-based sheltering is a growing area of animal welfare insofar as home placements may result in improved health and behavior outcomes for sheltered animals rather than extended stays in shelter facilities that are correlated with high rates of stress67. More research is needed in this area to understand the impacts of community-based sheltering and foster networks on the effectiveness of animal welfare outcomes. Assessment of Live Outcomes There are a variety of metrics that can be used to evaluate shelter operations on their ability to provide live outcomes for animals in their care. LRR is the primary metric utilized by shelters to assess and compare their operations. While Resolution 20091105-040 identified a 90% LRR as a measure of success for improving companion animal welfare in the city of Austin, the formula used to calculate LRR still varies across the animal welfare industry. To date, there are two primary definitions for LRR that can demonstrate the effectiveness of a shelter’s operations over a given year from slightly different perspectives. The first LRR definition, referred to as the ASPCA LRR Calculation,68 is a useful measure for understanding the ways in which the trends in intake over the reporting year impacted the resources available for life-saving programs. The ASPCA LRR Calculation is the number of adoptions plus the number of returns to owner (RTO) plus the number of animals transferred out to other organizations divided by the total intake 67 Coppola, C., Grandin, T., Enns, R.M. (2006) Human interaction and cortisol: can human contact reduce stress for shelter dogs? Journal of Physiology and Behavior. 87. 537-541. 68 http://www.aspcapro.org/sites/pro/files/What%20is%20your%20Rate%2010_2013.pdf 29 for that year. In 2016, AAC reported having adopted 7,789 animals, transferred out 5,017 animals, and returned 3,388 animals to their owner. With an intake of 16,820 animals, their LRR for 2016 under the ASPCA definition was 96%. In 2016, APA reported having adopted 6,981 animals, transferred 0 animals out, and returned 10 animals to their owner. With an intake of 7,344 animals, their LRR for 2016 under the ASPCA definition was 95%. The ASPCA LRR calculation is an important metric in that it provides an indication of how the management of AAC’s intake has supported the organization in meeting the 90% LRR goal described under the Resolution. The decreasing trends in overall intake seen at AAC has supported AAC’s attainment of the 90% LRR under the ASPCA definition. The second LRR definition, referred to as the Asilomar LRR Calculation69, is a useful measure for understanding the rate of live outcomes irrespective of the intake of the shelter that year. The Asilomar LRR Calculation is the number of adoptions plus the number of RTOs plus the number of animals transferred out divided by the total outcomes for that year. In 2016, AAC reported 16,194 live outcomes (adoption, transfer, RTO) and 16,812 total outcomes, meaning their LRR for 2016 under the Asilomar definition was 96%. In 2016, APA reported 7,802 live outcomes (adoption, transfer, RTO) out of a total of 7,955 outcomes, yielding a 98% LRR for 2016 under the Asilomar definition. The Resolution’s emphasis on live outcomes has driven increases in LRR specifically under this Asilomar definition. By placing a moratorium on euthanasia and establishing the formal partnership between AAC and APA, Resolution 20091105-040 created the pathway through which outcomes for animals sheltered in Austin would greatly improve under this definition. There are a number of limitations to utilizing LRR as the sole metric for success in animal welfare. For example, the length of stay of an animal is an important consideration that is not captured within these definitions of LRR. Extended lengths of stay for animals in shelters is a matter of contention in the animal welfare industry for several reasons. Shelters are high-stress environments for companion animals, and therefore, an increased length of stay may be correlated with a decreased quality of life70,71,72,73,74. With the implementation of Resolution 20091105-040 and its moratorium placed on euthanasia, many animals that would have previously been euthanized are now remaining under shelter care until they are adopted. APA’s data on length of stay indicate that most animals are in the organization’s care within the range of 0-180 days (64% of the random sample of 145 animals at APA in 2016) (Figure 12). While most of these animals spend time in the kennel environment of APA at some point during their stay, most animals are housed through a combination of on-site kennel time and off-site foster time in the broad network of 2,900 volunteer 69 http://www.aspcapro.org/sites/pro/files/What%20is%20your%20Rate%2010_2013.pdf 70 Hennessy, M.B., Larons, M.E., Williams, M.T., Mellott, C., Douglas, C.W. (1997). Plasma cortisol levels of dogs at a county animal shelter. Physiology and Behavior. 62. 485-490. 71 Protopopova, A. (2016). Effects of sheltering on physiology, immune function, behavior, and the welfare of dogs. Physiology and Behavior (159). 95-103. 72 Bannasch, M.J., Foley, J.E. (2005). Epidemiologic evaluation of multiple respiratory pathogens in cats in animal shelters. Journal of Feline Medicine and Surgery (7), 109-119. 73 Dinnage, J.D., Scarlett, J.M., Richards, J.R. (2009). Descriptive epidemiology of feline upper respiratory tract disease in an animal shelter. Journal of Feline Medicine and Surgery (11). 816-825. 74 Pedersen, N.C., Sato, R., Foley, J.E., Poland, A.M. (2004). Common virus infections in cats, before and after being placed in shelters, with emphasis on feline enteric coronavirus. Journal of Feline Medicine and Surgery (6). 83-8. 30 foster homes that are shared between AAC and APA. The purpose of this foster model is to alleviate the stress caused by housing under shelter conditions and to provide more focused opportunities to address any medical or behavioral challenges the animal may present. When these animals are not housed in a foster network, they may be kenneled on-site at APA where they receive regular walks, participation in supervised playgroups, and behavioral training. L E N G T H O F STAY @ A PA More than 360 days 22 # of Days in APA's Care 300-360 days 14 240-300 days 8 180-240 days 8 120-180 days 24 60-120 days 39 0-60 days 30 0 5 10 15 20 25 30 35 40 45 Number of dogs Figure 12. Length of stay for a random sample of 145 dogs in APA’s care in 2016, categorized within 60-day ranges. 64% (93 out of 145) of dogs in APA’s care in 2016 were there for less than 180 days. Dogs may have completed their stays through a combination of being both on-site at APA and off-site in foster care. Data on the random sample of 145 dogs were obtained from APA’s ShelterLuv database. The second issue associated with length of stay is the per diem cost for sheltering an animal. While it is important to acknowledge that not all shelters that house animals for an extended length of stay are providing an increased amount of resources to these animals, at APA, animals with longer lengths of stay are often being treated for costly medical and/or behavioral issues that add substantial cost beyond the per diem costs (increased spending on animals is discussed in more detail in the City Governance section). This treatment and the period of times these animals are unavailable for adoption while they are rehabilitated, are a significant “hidden cost” that should be accounted for within the decision to place a moratorium on euthanasia of these high-resource animals (Figure 13). Due to the potential cost and/or the ethical concern around the potential for sufficient additional resources not being directed towards maintaining these animals in a manner that ensures a high quality of life, the housing of animals who may require extended periods of care before being adopted is a matter of contention among animal welfare leadership. 31 P R O P O RT I O N O F T I M E D O G S S P E N D AVA I L A B L E F O R A D O P T IO N W H I L E I N A PA ' S C A R E Average Days Available for Adoption Average Days in Non-Available Care 700 600 # of Days 500 400 300 200 100 0 0-60 60-120 120-180 180-240 240-300 300-360 >360 Total Length of Stay Figure 13. Average number of days a dog (within the random sample of 145 dogs in APA’s care in 2016) spent available for adoption versus not available for adoption during their entire length of stay. There were 8 dogs (in the random sample of 145 dogs) who were never available for adoption in 2016. Their average length of stay was 315 days. Data on the random sample of 145 dogs were obtained from APA’s ShelterLuv database. Data provided in Appendix G. At APA, animals who are housed for any period of time are provided additional enrichment, as outlined in the implementation plan75. As of July 2017, APA had 51 “long stay” dogs (dogs who had been at APA longer than 300 days), with the average number of days these dogs had been in APA’s care being 502 days in 2017 (compared to 557 days and 531 days in 2015 and 2016, respectively). APA reports that 19 of the long-stay dogs are in long-term foster care (the others rotate in and out of foster care and time spent in the shelter). To date in 2017, APA has adopted out an average of 9 long-stay dogs per month compared to 6 per month in 2015 and 201676. These data indicate that at least some of these dogs who may have previously been euthanized had they been placed in the care of AAC prior to the Resolution can find new homes, given the appropriate level of resources from the shelter and the capacity of the community to adopt additional animals. Ultimately, quality of life is one of those impacts that could be considered of higher value than any incremental increase in rate of adoption or overall LRR. Therefore, additional data are needed on the health and behavior of these extended “long-stay” animals to appropriately assess the in-shelter animal health and welfare-related impacts of the Resolution. 75 76 http://www.ci.austin.tx.us/edims/document.cfm?id=131732 www.facebook.com/apalongstaydogs/ 32 Across the variety of mechanisms that inform shelter operations, data-driven decision-making and inter-organizational collaboration are important drivers of the substantial improvements in shelter outcomes across animal sheltering systems. Decreases in total intake and increases in rate of transfer from AAC to APA have been important factors that have supported AAC’s compliance with the 90% LRR goal of the Resolution. However, while LRR is an important metric to use in evaluating a shelter’s operations, the balance between a community’s animal welfare goals and its tolerance for issues such as increased resource allocation (i.e. per diem cost per animal) and length of stay is both an ethical and a practical discussion that must be held on a community-wide basis. Impacts on City of Austin Community Austin Animal Services Budget The implementation of Resolution 20091105-040 involved increases in taxrelated expenditures to cover AAC’s increased operational needs (Figures 14-15). While still representing less than 0.5% of the total City of Austin budget, the annual budget for the municipal shelter more than doubled between 2009 and 2016 to $12 million. This increase is largely attributable to the increased number of full-time employees at AAC and across Austin Animal Services (Figure 16). AAC Budget $14,000,000 $12,000,000 Amount $10,000,000 $8,000,000 $6,000,000 $4,000,000 $2,000,000 $0 2009 2010 2011 2012 2013 2014 2015 2016 Year Figure 14. Annual AAC budget from 2009-2016. 33 AAC Budget as % of City of Austin Budget Percentage of City of Austin Budget 0.400% 0.350% 0.300% 0.250% 0.200% 0.150% 0.100% 0.050% 0.000% 2009 2010 2011 2012 2013 2014 2015 2016 Year Figure 15. AAC budget as a percentage of the City of Austin budget from 2009 to 2016. AAC & APA Full Time Employees 120 Number of FTEs 100 80 60 40 20 0 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Year AAC APA Figure 16. Full-time employment increases following Resolution 20091105-040. The additional costs per animal taken in by AAC required to implement Resolution 20091105-040 – referred to here as the “No Kill Premium” – was estimated using two approaches. First, the average cost per animal that was taken into the municipal shelter was calculated for each year between 2005 and 2016 (the “before/after” method) (Appendix H). The 2005-2009 average cost per intake was then subtracted from the 2010-2016 average to calculate the increase in average cost per intake since the implementation of the Resolution (the “premium”). This resulted in the first estimation of the “No Kill Premium” at $265 per animal, which ultimately translates 34 into a total additional cost of $34 million when multiplied by the total intake of 128,325 animals cared for by AAC following the implementation of Resolution 20091105-040. In the second approach to estimate the cost of the Resolution within the municipal budget, AAC’s cost per intake in 2016 was calculated by dividing AAC’s budget by the total intake during that year (the “cross-sectional” method). In 2016, AAC spent an average of $715 per animal that came into the shelter. Note that this contrasts with the calculated average spending of $278 per animal on average in 2009, prior to the implementation of the Resolution. The 2016 average was then compared to the average cost per animal in five other major U.S. cities (Chicago, IL; Los Angeles, CA; Miami, FL; Dallas, TX; and Denver, CO77). The average cost per animal in 2016 for those housed in the municipal facility of these five major cities was $507 (Table 2). The $208 difference in AAC’s 2016 cost per intake compared to these other cities represents a second calculation of the “No Kill Premium”, and translates into a total additional cost of $26.7 million when multiplied by the total intake of 128,325 animals cared for by AAC since the Resolution. The average of the two “No Kill Premium” calculations is $237 per intake, which translates into a total additional cost of $30.4 million within the city budget for implementing the Resolution between 2010 and 201678. This represents an average of $4.3 million per year in the municipal budget. Note that even if the entire $187.8 million in positive economic impact calculated below resulted in revenue through the city sales tax, less than 10% of the “No Kill Premium” expenditure would directly return to the City of Austin79.This level of increased cost per animal is in contrast to previous arguments that articulate “No Kill” shelter management as a “low-cost” or “cost-effective” approach80. Furthermore, more data is needed to understand the relationship between increasing the cost per animal and objective measures of sheltered animals’ quality of life. These cities were selected based on the criteria of 1) access to the city’s Animal Services budget, and 2) publicly available intake and outcome numbers for the municipal shelter run under that Animal Services budget. These cities do not have legislation that specifically governs their municipal shelter operations in terms of LRR. 78 While the range from $265 to $208/intake is presented here, the $237/intake premium is suggested as the best possible conservative estimation of the additional cost per animal accrued when operating under the parameters set by the “No Kill” Resolution insofar as it accounts for the increasing average cost over the entire study period from 2005-2016 in Austin and includes consideration of the average cost allocated for sheltering in five major U.S. cities in 2016. 79 https://comptroller.texas.gov/taxes/sales/city.php 80 http://www.nathanwinograd.com/no-kill-quick-facts/ 77 35 Year Annual Budget Animal Intake Cost/Intake Austin81 City 2016 $12,061,551 16,858 $715 Chicago82,83 2016 $5,590,000 13,653 $409 LA84,85 2016-17 $23,982,367 45,607 $526 Miami (Miami Dade)86 2016-17 $21,067,000 31,000 $680 Dallas87 2016 $10,200,000 30,000 $340 Denver88 2016 $3,936,655 7,500 $525 Estimated Average Spend Per Intake: Rest of the Cities $507 Estimated Austin Resolution 20091105-040 Related Spend Per Intake $208 Table 2. Comparison of annual animal shelter budgets and cost per animal for Austin, Texas and five other U.S. cities. Shelter Operations As discussed in the Methodology section, the economic impacts from AAC and APA’s Resolution-related operations (3.9% and 100% of total, respectively) occur in three distinct areas. Each of these economic impacts was calculated using standard microeconomic and macroeconomic models. Together the three areas result in a total economic impact per additional animal “saved” since the Resolution. First, the additional staffing, payroll, and operations of AAC following the Resolution represent new economic activity in the region (the direct effect of the Resolution). From 2010-2016, the impact of the direct effect of shelter operations attributable to Resolution 20091105-040 was $22 million. Second, the increase in shelter operations also required purchases of materials and services from regional suppliers (the indirect effect of the Resolution). From 2010-2016, the impact of the indirect effect of shelter operations attributable to Resolution 20091105-040 was $6.7 million. Third, shelter operations require labor services providing household income, a portion of which will be spent in the local economy, offering additional economic impacts (the induced effect of the Resolution). From 2010-2016, the impact of the induced effect of shelter operations attributable to Resolution 20091105-040 was $12.2 million. Therefore, the total calculated economic impact of AAC and APA operations from 2010-2016 attributable to Resolution 20091105-040 was $41 million (Table 3). 81 AAC Budget http://www.chicagotribune.com/news/local/breaking/ct-no-kill-city-animal-shelters-met-20160401-story.html 83 https://www.cityofchicago.org/content/dam/city/depts/cacc/PDFiles/OldPDFs/2016_Annual_Stats.pdf 84 http://cao.lacity.org/budget16-17/2016-17Budget_Summary.pdf 85 http://www.laanimalservices.com/pdf/reports/CatNDogIntakeNOutcomes.pdf 86 https://www.miamidade.gov/budget/FY2016-17/proposed/library/animal-services.pdf 87 Boston Consulting Group DAS Report and https://www.dallasnews.com/news/news/2016/03/24/dallas-animalservices-saved-more-pets-than-it-euthanized-last-year 88 https://www.denvergov.org/content/dam/denvergov/Portals/344/documents/Budget/2016/Mayors_2016_Budget.pdf 82 36 Labor Income89 Direct Effect Value Added90 Output91 $16,214,641 $16,214,641 $22,045,868 Indirect Effect $2,129,594 $3,790,903 $6,683,198 Induced Effect $4,215,656 $7,300,235 $12,209,499 $22,559,891 $27,305,779 $40,938,565 TOTAL Table 3. Economic outputs from IMPLAN modeling for direct, indirect, and induced effects of AAC & APA operations from 2010 to 2016. An annual breakdown of these calculations is available in Appendix I. Veterinary Care and Pet Services While Texas ranks 21st among other states in terms of pet-keeping rates92, Austin’s pet-keeping ranks 3rd among the 25 Metropolitan Statistical Areas in the nation (as of 2013)93. This higher ownership rate is reflected in economic variables such as pet-related expenditures. For example, with increased pet-keeping, there is an increase in pet-care related expenditures such as dog-walking, grooming, or boarding. According to an American Pet Products Association study, overall, each animal in the community represents a $12,357 contribution to the local economy over its lifetime in the form of retail, veterinary, and other pet-care related services94. To capture the amount of economic impact that can be associated with Resolution 20091105-040, pet-related expenditures in Travis County were compared to the rest of Texas. The Resolution was an important driver of the rate of pet-keeping in Austin, however it is acknowledged that some of the animals in Austin would have been acquired before the Resolution and/or through means other than adoptions from AAC or APA. While animals acquired through other methods would also accrue similar economic benefits, the following calculations represent an attempt to capture the peripheral economic benefits of each additional animal that has been adopted since the Resolution. Using County Business Patterns Surveys (CBP) conducted from 2005 through 2015, data were collected for three pet related industries: (a) pet and pet supplies stores (NAICS-453910)95, (b) veterinary services (NAICS-541940), and (c) pet care (except veterinary) services ((NAICS 812910), in both Travis County and Texas. While annual payroll by industry was available annually, sales data were only available for 2007 and 2012 for these industries in Travis County and Texas. Using 2007 and 2012 sales to annual payroll ratios, annual sales by veterinary services and other pet care services 89 Within IMPLAN analysis, labor income is defined as all forms of employment income, including employee compensation (wages and benefits) and proprietor income. For the purposes of the analysis in the following table, there was no proprietor income calculated because it is not applicable for government and non-profit entities. 90 Value added was defined as the difference between the industry’s total output and the cost of its intermediate inputs. 91 Net output represents the value of the industry’s production, which are calculated within the IMPLAN software from annual production estimates. 92 https://www.avma.org/KB/Resources/Statistics/Pages/Market-research-statistics-US-pet-ownership.aspx 93 https://factfinder.census.gov/faces/tableservices/jsf/pages/productview.xhtml?pid=AHS_2013_S06AO&prodType 94 American Pet Products Association Study - retrieved from Dallas Animal Shelter presentation. July 17, 2015 95 This item excluded from the calculations since this is an industry allowing for online orders (increasingly) which could have biased the results (portion of sales by shipping area unknown) 37 were first estimated from 2005 to 201696. Next, the estimated sales were normalized by population to capture per capita sales (as a proxy for per capita expenditures) in these two industries, so that population growth differences could be accounted for (Figure 17). Per Capita Sales, Veterinary and Pet Care Services, TX v. Travis County, 2005-2015 Per Capita Sales $250.00 $200.00 $150.00 $100.00 $50.00 $2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 Year Texas Travis County Figure 17. Per capita veterinary and pet care services spending in Texas versus Travis County Year Veterinary and Pet Care Services Per Capita Sales Veterinary and Pet Care Services Year to Year Annual Growth97 Texas Travis County Texas Travis County 2005 $72.3 $107.6 n/a n/a 2006 $76.6 $117.5 6% 9% 2007 $83.7 $116.7 9% -1% 2008 $88.2 $122.9 5% 5% 2009 $92.6 $140.1 5% 14% 2010 $93.7 $135.1 1% -4% 2011 $97.2 $138.3 4% 2% 2012 $103.9 $156.7 7% 13% 2013 $108.3 $162.7 4% 4% 2014 $111.5 $179.0 3% 10% 2015 $121.8 $196.5 9% 10% Table 4. Estimated sales normalized by population to capture per capita sales (as a proxy for per capita expenditures) in the veterinary services and pet care services industries. 96 Sales and annual payroll for 2016 were extrapolated, as CBP has only been measured through 2015 at the time of this study. 97 Despite limited sample size, a t-test for the post-2010 growth rates in Texas vs Travis County resulted in a p-value of 0.33, i.e. the probability that the post 2010 growth rates are not statistically different from each other. 38 As the next step in estimating the increased use of veterinary and pet care services, pre-2010 average per capita spending levels were calculated and compared to post-2010 average per capita spending levels both in Travis County and state-wide in Texas, in order to capture the overall trends in per capita spending in each average per capita spending increased by 33.4% in Travis County while it only increased by 28.2% statewide (Table 4). In order to control for any potential national and state specific factors that could have caused the observed increase in per capita spending levels in Travis County, the percentage increase of post-Resolution versus pre-Resolution spending levels (i.e. 28.2%) was used to re-calculate how much the pre-capita spending (the “but-for” level) would have increased in Texas if it only increased at a rate parallel to the rest of the state (Table 5). The but-for per-capita spending level ($155.10) was then subtracted from the observed post-2010 average ($161.39) to calculate the annual surplus per capita spending that occurred in Travis County that could be attributed to Resolution 20091105-040 ($6.29). The total surplus spending on veterinary and other pet care services from 2010 through 2016 was then calculated to be $49.3 million by multiplying the per capita surplus spending ($6.29) by the annual Travis County population levels. Lastly, the total surplus per capita annual spending ($6.29) is calculated to be 3.9% of the overall $161.39 per capita annual spending in Travis County, during 2010-2016. In other words, the estimated relative impact of Resolution 20091105-040 on Travis County’s per capita spending on veterinary and pet care services is 3.9%. Veterinary and Pet Care Services Texas Travis County Avg. pre-2010 per capita spending $82.69 $120.95 Avg. post-2010 per capita spending $106.03 $161.39 28.2% 33.4% Avg. but-for post-2010 per capita spending n/a $155.10 Avg. annual surplus per capita spending n/a $6.29 2010-2016 Total Surplus Spending n/a $49,300,160 % of Surplus Spending in Travis County, 2010-2016 n/a 3.9% Growth % of avg. post-2010 to pre-2010 spending Table 5. Estimation of the percentage of veterinary and pet care services spending attributable to Resolution 20091105-040. Pet Retail The type of pet related expenses that are not captured by veterinary and other pet care services were also estimated (Table 6). Those expenses are categorized into food, treats, and toys. Since expenditures for consumables (food, treats, and toys) were not reported by CBP data, the surplus Travis County expenditures for these items were estimated using the annual breakdown of pet related expenditures obtained from the American Pet Products Association Study (Appendix J). On average, annual expenditures for food, treats, and toys are 34% of total pet related expenditures, whereas the remaining 66% are within the previously estimated veterinary and other pet care expenses (Table 6). Note that the initial point for this estimation is the $49.3 million as discussed in Table 5 above, which was already scaled down to only represent 39 Resolution-related expenditures in Travis County. Using the ratio of each expense group to each other, $25.3 million in food, toy, and treat related surplus spending was estimated in Travis County when compared to the rest of Texas. It was estimated that per capita pet related expenditures have been growing faster than the rest of the Texas since 2010. Average Annual Spent Per Animal Veterinary and Other Pet Care Expenses Food and Toys Related Expenses Veterinary and Pet Care - % of Pet-Related Total Spend Pet-Related Retail - % of Total PetRelated Spend Pets Vet Care Grooming Boarding/ Pet-sitting Food Treats Toys Cats $193 $20 $337 $203 $36 $23 68% 32% Dogs $239 $61 $327 $231 $65 $41 65% 35% Total $432 $81 $664 $434 $101 $64 66% 34% $49,300,160 $25,333,237 Estimated Resolution 20091105-040 Related Expenditures, Travis County 2010-2016 Table 6. The veterinary services, pet care services, and pet-related retail spending in Travis County attributable to Resolution 20091105-040 from 2010-2016. City of Austin Brand Equity Beyond the direct economic impacts of the shelter operations and the more indirect impacts on the city budget, the Resolution may have also indirectly impacted the city of Austin’s brand equity. City branding is emerging as an internationally recognized research domain that is characterized by a “high degree of interdisciplinary collaboration and an evolving theoretical foundation.”98 The importance of city branding in the context of City of Austin’s Resolution 20091105-040 is emphasized by the fact that “almost 64% of college-educated 25- to 34-year-olds said they looked for a job only after they’d chosen the city where they wanted to live.”99 The Humane City signals social awareness to a key labor demographic (the young, mobile, highly-educated, and innovative professional) and could serve as a catalyst for economic and public health improvements. Google Tower, located at 500 West 2nd Street in downtown Austin, is an example of how a Humane City may contribute to the overall brand equity of a city and therefore its ability to attract the millennial workforce100. When interviewed on the decision to build in Austin, a Google representative was quoted as saying, the city was “attractive to company executives because it is attractive to a young, vibrant, pet-loving workforce." In other words, creating a pet friendly environment can affect a city’s ability to attract new residents. 98 Lucarelli, Andrea, and Per Olof Berg. "City branding: a state-of-the-art review of the research domain." Journal of place management and development 4.1 (2011): 9-27. 99 https://hbr.org/2010/05/back-to-the-city 100 http://www.512tech.com/technology/google-new-downtown-tower-home-reaches-fullheight/Bn3D2bznoskEVKh2hpAuaL/ 40 This observation is further supported by the data obtained by Google trends service101. The following three search terms on Google were analyzed over the last five years in the U.S.: “moving companies”, “pet friendly” and “apartments for rent” (Figure 18)102. The seasonal characteristics of the search frequencies for all three series highly correlate (Table 7), which indicate the importance of pet friendly environment for moving decisions of residents, and therefore, its relevance to a city’s long-term ability to be economically successful. # of Times Google Trends Analytics For Search Terms: (i) Moving Companies, (ii) Pet Friendly, (iii) Apartments for Rent 120 100 80 60 40 20 0 8/5/2012 8/5/2013 8/5/2014 8/5/2015 8/5/2016 Date Moving companies: (United States) Pet friendly: (United States) Apartments for rent: (United States) Figure 18. Google trends for ‘Moving Companies’, ‘Pet Friendly’, and ‘Apartments for Rent’ from 2012-2017 Search Term Correlation Matrix Moving companies: Moving companies: Pet friendly: Pet friendly: 77% 100% Apartments for rent: 72% 77% Apartments for rent: 100% 100% Table 7. Google Search Term Trends Correlation matrix Since 2010, Travis County’s population has increased by 17.1%103. This may be indicative, at least in some form, of the brand equity afforded the city as a result of Resolution 20091105-040 and other policies in Austin that contribute to it as a Humane City. These Google trends analyses on new resident priorities are supported through Austin’s higher than average rate of available pet-friendly rental housing. On average, 101 https://trends.google.com/trends/ https://trends.google.com/trends/explore?date=today%205y&geo=US&q=apartments%20for%20rent,pet%20friendly,moving%20companies 103 https://www.census.gov/quickfacts/fact/table/traviscountytexas,austincitytexas/PST045216 102 41 46% of available Austin rentals report being pet-friendly. This is higher than two of four other major U.S. cities (Nashville, TN; Raleigh, NC) that were analyzed for trends in petfriendly rental properties (Figure 19). This is relevant insofar as it underscores the point that a Humane City will adopt an integrated system of policies all working towards similar humane outcomes. While the Resolution can be attributed for a percentage of the new residents in Austin, the support of pet-friendly initiatives through other institutions such as housing, enables the residents to enact humane attitudes in a variety of contexts, thereby fortifying the social impacts of Austin’s city branding. Pet Friendly Rental Properties 60% 52% 51% 46% 41% 40% 39% Raleigh, NC Nashville, TN 10% Denver, CO 20% Portland, OR 30% Austin, TX % of Pet-Friendly Rentals 50% 0% City Figure 19. Percentage of available rental properties that are pet-friendly104. Data provided in Appendix K. The economic impact of Resolution 20091105-040 on Austin’s city branding was estimated by first comparing the population in Travis County to the total MSA level population in the state of Texas for 2005-2016. The Travis County population growth during 2010-2016 was then detrended using the Texas MSA population as a control variable105, resulting in an estimate that the Travis County population outgrew the rest of the Texas MSAs by 195,386 people (“surplus” population). Using the Census-reported median income of $61,451106, and multiplying with the estimated surplus population since 2010, the total income generated by the surplus population was estimated to be approximately $12 billion, $4.9 billion of which was spent in the local economy107. As noted in the Census conducted Current Population Survey108, people move due to family-related, housing-related, job-related and other reasons. There is no reason to believe that the surplus population in Travis County can be attributed to family reasons 104 Zillow and Trulia, April 2017-May 2017 By comparing growth of population in pre-2010 to post-2010 segments. 106 https://www.census.gov/quickfacts/table/PST045125/48453 107 http://www.pewtrusts.org/en/research-and-analysis/issue-briefs/2016/03/household-expenditures-and-income 108 U.S. Census Bureau, Current Population Survey, Annual Social and Economic Supplement. 105 42 (when compared to the rest of Texas), since those movers would be equally reflected in the control variable, the Texas MSA population109. Additionally, housing price indices indicate that Travis County has consistently been more expensive than the rest of Texas110. In other words, the surplus population cannot be attributed to housing reasons as well. Controlling for those two factors, uncategorized other reasons, which is inferred to include the implementation of the Resolution, accounted for 9.8% of all mover related reasons. Finally, a survey of Austin residents conducted as part of this study found that 15% of the 750 respondents111 reported that a city’s pet friendliness would affect their decision about moving to that city or not. In other words, it is estimated that 15% of the 9.8% (“other uncategorized reason” movers) of Travis county population surplus can be attributable to the Resolution, yielding $72.3 million local economic impact attributable to the implementation of Resolution 20091105-040. (Appendix L, Appendix M). Potential Additional Impacts While not included as part of the total economic impact calculated in this report, several potential public health and social impacts are considered here. These effects are additional benefits potentially accrued by Austin as result of Resolution 20091105040 and by other Humane Cities. Public Health The Resolution legislated significant operational changes at the municipal shelter with the intent of improving animal welfare outcomes for Austin’s unhoused companion animals. However, by supporting improvements to animal welfare, Humane Cities may also experience improvements in human welfare and public health. Increasing the LRR of a city shelter requires both increased rates of adoption and/or transfer partnerships. In particular, increases in the rate of adoption can be connected to increased rates of pet-keeping in the community and increases in transfers can result in increased numbers of animal available for adoption in other communities that are seeking to increase pet-keeping rates. Across communities, companion animals have been correlated with changes to individuals’ and families’ holistic wellness, including their physical, mental, and social health112,113,114. Several studies have identified pet-keeping as a protective mechanism 109 Otherwise, we would impose that Travis County have higher parenthood / family ties than the rest of Texas https://fred.stlouisfed.org/series/ATNHPIUS48453A and https://fred.stlouisfed.org/series/TXSTHPI 111 Originally 17.2% responded, adjusted down to 15% in order to control for the selection bias, by comparing the pet ownership rates in the survey to average pet ownership rate in Austin area. 112 Hodgson, K., Barton, L., Darling, M., Antao, V., Kim, F. A., & Monavvari, A. (2015). Pets’ impact on your patients’ health: Leveraging benefits and mitigating risk. The Journal of the American Board of Family Medicine, 28(4), 526534 113 Wzu, Y., Luben, R., Jones, A. (2017). Dog ownership supports the maintenance of physical activity during poor weather in older English adults: cross-sectional results from the EPIC Norfolk cohort. Journal of Epidemiology and Community Health. DOI: 10.1136/jech-2017-208987 114 Connolly, J.J.; Svendsen, E.S.; Fisher, D.R.; Campbell, L.K. (2014). Networked governance and the management of ecosystem services: The case of urban environmental stewardship in New York City. Ecosystem Services. 10: 187-194. 110 43 for cardiovascular health115,116. Pets may also serve as important sources of attachment that can result in improved psychosocial outcomes for humans117,118. In this way, emphasizing the value of companion animal lives may also result in benefits to the human population. Pets in homes may result in a variety of different cost-related benefits, including health-related expenditure savings. A study in Australia indicates that pet-related health benefits could translate to significant public health savings, with one estimate for decreased annual health expenditures at $3.86 billion (7.2%), if pet-keepers visited a doctor as often as non-pet-keepers119. At the time of this report these expenditures could not be estimated for Austin using existing data. According to the Texas Veterinary Medical Association, Austin has 365 veterinarians - the highest number of veterinarians per capita in the state and not far behind the city’s estimated 400 to 450 pediatricians 120. This ratio of veterinarians to pediatricians may be an indicator of the increasing relevance of pet-keeping in Austin. Further study is needed in this area to understand how pet-keeping may influence human pet-keepers’ health decisions for themselves and for their families. Previous research indicated that there may be some negative implications for expanded opportunities for pet-keeping which include those incidences primarily managed through animal protection or animal control services. In 1986, dog bites were identified as among the top 12 causes of non-fatal injury in the U.S.121, while another study identified animal control issues as the most common complaint city officials receive from their constituents122. A more recent study in 2002 estimated that there are roughly 1.5 to 4.5 animal control complaints per 1,000 people in major U.S. cities123. In this way, as a municipal facility, AAC has a duty to “protect” the public from any risk that may occur as a result of increased pet-keeping in communities. Dog bite data from Austin Animal Services indicate that although there has been an increase in dog bites since the implementation of the Resolution in 2010, the upward trend in dog bites began in Austin as early as 2003 (Appendix N)124. A t-test analysis of severe dog bites shows that severe dog bites from 2005 to 2009 (M=39, SD=16) did not vary significantly from severe dog bites from 2010 to 2015 (M=70, SD=72) (P=0.349). The same analysis on moderate dog bites found that moderate dog bites from 2005 to 2009 (M=218, SD=52) did not vary significantly from moderate dog bites from 2010 to 2015 (M=464, SD=340) (P=0.138). It is important to note that the 2012 year of reporting may 115 Arhant-Sudhir, K., Arhant-Sudhir, R. Sudhir, K. (2011). Pet ownership and cardiovascular risk reduction: supporting evidence, conflicting data and underlying mechanisms. Clinical and Experimental Pharmacology and Physiology, 38. 734-738. 116 Levine, G., Allen, K., Braun, L., Christian, H., Friedmann, E., Taubert, K., Thomas, S., Wells, D., & Lange, R. (2013). Pet ownership and cardiovascular risk: A scientific statement from the American Heart Association. 127, 2353–2363. 117 Kurdek, L.A. (2009). Pet dogs as attachment figures for adult owners. Journal of Family Psychology, 23, 439–446. 118 Holt-Lunstad, J., Smith, T. B., Layton, J. B. (2010). Social relationships and mortality risk: A meta-analytic review. PLoS Medicine 7(7): e1000316. 119 Heady, B., Grabka, M., Kelley, J., Reddy, P., & Tseng, Y. (2002). Pet ownership is good for your health and saves public expenditure too: Australian and German longitudinal evidence. Australian Social Monitor, 5(4), 93-99. 120 http://www.statesman.com/lifestyles/pets/welcome-dogtown-aka-austin-texas/GXzyLzZSKTCvnBV40lICwL/ 121 Sosin, D.M., Sacks, J.J., Sattin, R.W. (1986). Causes of nonfatal injuries in the United States. Accident Analysis and Prevention 24, 658-957. 122 Bancroft, R.L. (1974). America’s mayors and councilmen: their problems and frustrations. Nation’s Cities 12. 14-22. 123 Clifton, M. (2002). Animal control is people control. Animal People 11 (5). 124 http://www.austintexas.gov/sites/default/files/files/Animal_Services/Response_8_14.pdf 44 be considered an outlier for all categories of dog bites (moderate bites = 1,147, severe bites = 211) and may have skewed the mean and standard deviations. When excluding the data reported in 2012 for the t-test analysis, severe dog bites from 2005 to 2009 (M=39, SD=16) still did not vary significantly from severe dog bites from 2010 to 2015 (excluding 2012) (M=42, SD=22) (P=0.833). However, moderate dog bites from 2005 to 2009 (M=218, SD=52) did vary significantly from moderate dog bites from 2010 to 2015 (excluding 2012) (M=327, SD=64) (P=0.019). These data indicate that the Resolution may have coincided with an increased reporting and/or incidence of dog bites, however the upward trend also coincides with an increase in human population within Travis County as well as with an increase in total number of animals in Austin and therefore the increased trend in dog bites cannot be attributed exclusively to the Resolution. The City of Austin manages the reporting of animal welfare concerns like cruelty and neglect citations utilizing a web-based platform in which real-time updates can be recorded and viewed by community members. One such example of this is the “Dangerous Dog” map where community members can view the locations of any dogs who have received citations but are able to remain in their homes under a set of restrictions, including a special identification tag that must remain visible125. The presence of publicly available data on animal welfare concerns is one example of how a city can enhance community education and safety by remaining transparent on both the positive and negative state of the city’s animal welfare. Social Capital Resolution 20091105-040 represents a significant social effort to prioritize animal welfare within Austin’s city governance. According to social science research, the driver behind this effort is most likely rooted in the perception that the change could then result in improvements in human individual’s personal welfare or utility126. This is important to note insofar as, at present, economic arguments and political agendas do not appear to serve as sufficient incentive for valuing the lives of companion animals127. In this way, there are factors beyond the economic and operational components of the Resolution that have motivated the citizens of Austin to move towards a Humane City and that inform the more indirect impacts of the legislation in Austin. The overall increase in pet-keeping that may have resulted from the Resolution may serve as a mechanism for shifting Austin to a more humane and compassionate city. Studies indicate that pet-keeping is positively associated with some forms of social contact and interaction (civic engagement) and with perceptions of neighborhood friendliness. For example, pets can inform the exchange of favors that can be symbolic of trust128. Therefore, pet-keeping may be emerging in Austin as an important driver of pro-social behavior and other mechanisms of social capital. 125 https://data.austintexas.gov/Public-Safety/Statesman-Dangerous-Dog-Map/w2sb-hd72 Paavola, J., Adger, W.N. (2005). Institutional ecological economics. Ecological Economics. 53. 353-368. 127 Farber, S. (1991). Local and global incentives for sustainability: failures in economic systems. In Ecological Economics: the science and management of sustainability, ed. R. Costanza, 344-354. Columbia University Press, New York. 128 Wood, L. (2000). Social capital, physical environments, and health: study funded by Healthway starter grant. Perth: The University of Western Australia. 126 45 Furthermore, social capital is associated with increases in reciprocity-based networks129 that can be an increasing driver of an individual or family’s ability to care for their pets. In this way, policies that build upon and result in an increase in social capital and these reciprocity-based networks can assist in building measures of coping and resilience that may be important to decreasing negative human and animal welfare outcomes130. An important factor for whether or not communities can utilize social capital as a mechanism for caring for their animals is the degree to which the formal institutions of the city support means of connection131. By connecting community members together, either by necessity to achieve operational effectiveness at the shelter or informally through the increased social connectivity that results from an increased number of companion animals in a community, “humane” oriented policies like Resolution 20091105-040 can contribute to the social and civil health of the city as a whole. Community Engagement The degree to which animal welfare is protected in a city goes beyond shelter management and is increasingly informed by larger community measures of compassionate engagement and responsible pet-keeping. The effectiveness of humane policies such as “No Kill” animal sheltering may be evaluated based on its impacts on animal welfare outcomes outside those specifically addressed through shelter operations. Animal cruelty citations are one such indicator of whether Resolution 20091105-040’s emphasis on shelter operations had any peripheral impacts on Austin’s or Travis County’s greater animal welfare. Data obtained by public information requests132 indicate that reporting of animal cruelty went up immediately following the implementation of the Resolution in 2010, but have since decreased since 2012 (Figure 20). This increase is mostly likely due to an overall increase in reporting that may have resulted from increased awareness of animal welfare-related concerns and/or increased effectiveness of animal protection officers’ field services, including the efficiency of Animal Services’ reporting processes. The decrease following 2012 could indicate that the community engagement was high with the topics of animal welfare brought to attention by the Resolution and then may have resulted in changes to negative behaviors that previously resulted in animal cruelty offenses. It is important to note that one finding of the 2015 City of Austin audit discussed previously was that animal protection officer response time had decreased. No conclusions can be drawn based on the available data regarding how this initial increase followed by decrease in cruelty citations may have been informed by animal protection officer response time. More data are needed in this area to draw firm conclusions on how the Resolution has impacted the more negative animal welfare outcomes like incidence of cruelty citations. 129 Paavola, J., Adger, W.N. (2005). Institutional ecological economics. Ecological Economics. 53. 353-368. Ibid. 131 Woolcock, M. & Narayan, D. (2000) Social capital: implications for developmental theory, research and policy. World Bank Reserve Obs. 15, p. 234. 132 Public Information Request - Austin Police Department 130 46 Cruelty to Animal Offenses in Austin 600 # of Offenses 500 400 300 200 100 0 2009 2010 2011 2012 2013 2014 2015 2016 Year Figure 20. Annual numbers of City of Austin Cruelty to Animal Cases from 2010 to 2016. Data provided in Appendix O. While animal cruelty offenses may serve as an indicator of community awareness of the issue of the humane treatment of animals, community engagement is another measure of the impact of the Resolution on the greater city of Austin and Travis County. Donations to animal welfare organizations are one strong indicator of community support for humane policies. A study as early as 1992 indicated that 10-15 million Americans had a membership of some form with an animal welfare group, with 20% of Americans reporting that they contributed money to an animal welfare organization133. APA, as a private, non-profit organization, runs most of its operations from community donations. In this way, many of the positive outcomes that have resulted from the partnership between AAC and APA are optimized through community engagement by way of donations. APA reported having collected a total of $16.5 million in donations since 2010 (Figure 21) with about 50% of all monetary donations coming from individual contributions134 (Appendix P). 133 Jasper, J.M., & Nelkin, D. (1992. The Animal Rights Crusade: the growth of moral protest. The Free Press, New York. 134 Ibid. 47 APA Donations $4,500,000 $4,000,000 Total Donations $3,500,000 $3,000,000 $2,500,000 $2,000,000 $1,500,000 $1,000,000 $500,000 $2009 2010 2011 2012 2013 2014 2015 2016 Year Figure 21. APA year to year donation growth135. Individual donation data provided in Appendix P. Social engagement is another indicator of the Austin community’s support of humane initiatives. For example, Ride Austin, the local ride-hailing service similar to Uber and Lyft, offers riders the option to donate to a chosen local charity campaign. As of July 2017, APA has raised $38,930.58 - the most of any non-profit participating in Ride Austin fundraising136. Amplify Austin Day is the city's annual community-wide day of online giving to local nonprofits. In 2017, Amplify Austin Day raised $9.8 million for nearly 700 Central Texas nonprofits137, with APA receiving a $1,000 match for having the most donors in one hour and the $5,000 grand prize for most individual fundraisers. In total, APA received 1,893 donations on Amplify Austin Day, the most across all categories of participants, and was 12th in total dollars raised at $135,851.26138. Foster and volunteer data also indicate that the Austin community supports APA and AAC year-round, not just on special days and in emergencies. As previously discussed in this report, there are over 2,900 approved foster homes between the two organizations, representing one of the most extensive foster networks in the country. In addition to foster homes, the most recent volunteer data indicates that APA had 2,629 volunteers who contributed 114,955 hours in 2016139 while AAC volunteers donated 49,000 hours140. 135 APA Abila donor database Diamante, R. (2017, Jun 07). Ride-hailing companies react to Uber and Lyft’s return. Spectrum News. Retrieved from: http://www.twcnews.com/tx/austin/news/2017/06/7/ride-hailing-companies-react-to-uber--lyft-s-return.html 137 https://amplifyatx.ilivehereigivehere.org/content/whatsAmplify 138 APA Amplify Austin donation data 139 APA Volunteer Tracking 140 https://www.givepulse.com/event/3495-Volunteer-opportunities-at-Austin-Animal-Center 136 48 Limitations and Implications This report represents the first attempt to comprehensively document the impacts of Resolution 20091105-040 on the social, economic, and health-related areas of the city of Austin, greater Travis County, and surrounding communities. Assessing data across such a variety of industries and sources required a high-level of attention to detail and nuance. Central to the conclusions presented in this report is the assumption that the data provided by the various agencies was done so in a complete and truthful manner. Overall, limitations in the data were addressed by using the most conservative sources and findings available, and by using standard economic analyses and models to account for microeconomic and macroeconomic trends. In instances where data was not available to support or refute a conclusion, that information as indicated. The absence of publicly-available or otherwise accessible data was the primary limitation encountered throughout this study. Data obtained from APA and AAC may be limited insofar as there have been changes to both databases and individuals collecting the data throughout the study period from 2005 to 2016 that impacted the categories of data the research team was able to collect. For example, length of stay is a metric that is not available within AAC’s database and therefore it was not feasible for the organization to report on this consideration for the shelter’s outcome data. In particular, the “other” outcome category varies between the two organizations (transfer is included in “other” for APA while it is its own category for AAC). Efforts were made to standardize the inclusion definition for each field included in this report. Speak Up Austin and the Young Chamber of Commerce supported the research team by distributing the survey on Austin pet-keeping to their constituents. Data collected within the survey of Austin residents are subject to response bias. However, participants who took the survey did so of their own volition, and were not incentivized in any manner by the research team. Conclusion This study represents the most comprehensive analysis conducted to date of the impacts of the City of Austin Resolution 20091105-040. The study utilized standard microeconomic and macroeconomic analyses, along with emerging impact assessment methodologies, to produce conservative estimations of both the costs and economic benefits of implementing the Resolution. Ultimately, the feasibility of implementing the Resolution is a community’s financial and ethical decision on how much cost per animal can be supported as well as how welfare will be defined within sheltering. However, many of the findings are generalizable to other municipalities in the U.S. For example, the increased shelter staffing required to implement the legislation and the veterinary and pet-related retail services required to support any increased number of adopted dogs and cats in the community would have similar direct and indirect economic impacts across any local economy. The study found that a high LRR is achievable at a municipal level. However, in Austin it has required extensive additions to animal sheltering resources (as measured 49 by both the increase in the city budget for the municipal shelter and the average cost per animal served by the shelter compared to that in several other U.S. cities) paired with broad and active community support (as measured by the number of supportive donors, volunteers, foster homes, and non-profit transfer partner organizations). In addition, the ethics of the extended lengths of stay experienced by some of the animals, whether in shelters or foster care, remains an issue that requires further study and discussion by the animal welfare profession. The costs associated with implementing the Resolution appear to have been more than offset by a series of economic benefits to the community. The majority of the positive economic impacts result from increased employment within animal services as well as the increased use of pet care and pet retail services. An additional benefit appears to be the positive contribution of Austin’s progressive animal welfare policies to its brand equity. This impact is important as municipalities compete with each other to attract employee demographics that in turn draw new business and new economic growth to their area. Although not included in the final economic impact calculation, the potential impacts of progressive animal welfare policies on larger social and environmental outcomes, including public health, social capital, and community engagement, have important implications for Austin’s ability to promote and sustain the health and well-being of both its human and animal residents. The implementation of Resolution 20091105-040 demonstrates that components of creating a Humane City can be legislated. Like other public policy making, legislating animal welfare policies should include extensive community input and planning to be successful over the long term. In the case of implementing humane policies within shelter operations, a balance point between the financial costs and benefits identified in this study must be integrated into the ethical considerations associated with how companion animal quality of life is defined. Appropriate infrastructure should be developed alongside existing community resources to ensure an effective and sustainable model is established to implement the policy change. Above all, a community’s companion animal lifesaving goals, and its commitment to deploying the resources required to achieve them, must come from an open, honest, and ongoing conversation around benefits and tradeoffs. As more communities commit to substantially improving their animal shelter outcomes, best practices can be established across systems to avoid implementation pitfalls, optimize resources, and maximize impacts on both the animals and the community at large. We hope that this study contributes to the honest dialog and open debate necessary to identify the best practices for improving animal welfare within the context of creating Humane Cities. Acknowledgements The authors thank Austin Animal Center and Austin Pets Alive! for providing access to their data, and to Speak Up Austin and Young Chamber of Commerce for distributing the survey for additional data collection on Austin residents. This study was funded in full by WaterShed Animal Fund. 50 APPENDICIES Appendix A: Pet Ownership Estimates by State (AVMA141) Percentage of households that owned pets and number of pet-owning households Rank 141 Region Number of Households (in 1,000) Percentage of Owners Number of Pet Households United States 118,682 56% 66,449 1 Vermont 265 71% 188 2 New Mexico 773 68% 523 3 South Dakota 333 66% 219 4 Oregon 1,505 64% 957 5 Maine 548 63% 345 6 Washington 2,632 63% 1,649 7 Arkansas 1,148 62% 716 8 West Virginia 765 62% 475 9 Wyoming 221 62% 137 10 Idaho 568 62% 352 11 Kentucky 1,777 62% 1,094 12 Missouri 2,498 61% 1,534 13 Colorado 1,986 61% 1,217 14 Montana 410 61% 251 15 Kansas 1,133 61% 691 16 Indiana 2,478 60% 1,484 17 Tennessee 2,583 60% 1,540 18 Arizona 2,515 60% 1,497 19 Alabama 1,828 60% 1,088 20 Oklahoma 1,479 59% 872 21 Texas 9,002 58% 5,265 https://www.avma.org/KB/Resources/Statistics/Pages/Market-research-statistics-US-pet-ownership.aspx 51 22 Wisconsin 2,350 58% 1,352 23 Ohio 4,661 57% 2,677 24 New Hampshire 508 57% 289 25 Pennsylvania 5,172 57% 2,942 26 Delaware 334 57% 189 27 North Carolina 3,701 56% 2,089 28 Mississippi 1,115 56% 629 29 Nevada 986 56% 548 30 Michigan 3,804 55% 2,108 31 Georgia 3,798 55% 2,093 32 Louisiana 1,702 55% 937 33 Connecticut 1,337 54% 728 34 Florida 7,609 54% 4,138 35 South Carolina 1,759 54% 951 36 North Dakota 272 54% 147 37 Iowa 1,219 54% 654 38 Virginia 3,017 53% 1,611 39 Rhode Island 434 53% 230 40 Minnesota 2,163 53% 1,146 41 California 12,974 53% 6,865 42 Maryland 2,169 52% 1,134 43 Illinois 5,026 52% 2,602 44 Nebraska 710 51% 364 45 Utah 930 51% 476 46 New Jersey 3,177 51% 1,611 47 New York 7,512 51% 3,802 48 Massachusetts 2,618 50% 1,318 49 D.C. 287 22% 63 52 Appendix B: Pet Ownership Estimates by MSA (American Housing Survey) 2013 American Housing Survey, Selected MSA Level (Units in thousands) Rank Geography Total Occupied Units- Pets present % Occupied Units with Pets 372.8 218.3 59% 488 275.3 56% 1 Tucson, AZ AHS Area 2 Oklahoma City, OK AHS Area 3 Austin-Round Rock, TX AHS Area 669.6 367.4 55% 4 San Antonio, TX AHS Area 777.6 420.7 54% 5 Louisville, KY-IN AHS Area 517.2 279 54% 6 Nashville-Davidson-Murfreesboro, TN AHS Area 622.1 334.9 54% 7 Rochester, NY AHS Area 414.4 210.8 51% 8 Seattle-Tacoma-Everett, WA AHS Area 1375.9 690.1 50% 9 Tampa-St. Petersburg, FL AHS Area 1085.5 532.7 49% 10 Orlando, FL AHS Area 813.2 391.8 48% 11 Minneapolis-St. Paul, MN-WI AHS Area 1301.7 617.1 47% 12 Richmond, VA AHS Area 487.5 230.6 47% 13 Houston, TX AHS Area 2152.4 994.4 46% 14 Hartford, CT AHS Area 426.5 193 45% 15 Philadelphia, PA-NJ AHS Area 1965.7 880.4 45% 16 Baltimore, MD AHS Area 1018.1 453 44% 17 Jacksonville, FL AHS Area 510.4 223.9 44% 18 Detroit, MI AHS Area 1722.4 755.3 44% 19 Las Vegas-Paradise, NV AHS Area 692.9 302.4 44% 20 Miami-Ft. Lauderdale-Hollywood, FL AHS Area 1978.8 772.5 39% 21 Washington-Arlington, DC-VA-MD-WV AHS Area 2114 790.8 37% 22 Chicago, IL AHS Area 2901 1074.2 37% 23 Northern New Jersey, NJ AHS Area 2284.7 845 37% 24 Boston, MA AHS Area 1139.3 402.5 35% 25 New York, NY AHS Area 4304.8 1062.8 25% 32,136.5 13,318.9 41% 115,852 56,097 48% MSA total USA (including non-MSA areas) 142 Total Occupied Units 142 Calculated using the non-MSA version of the American Housing Survey 2013 survey 53 Appendix C: Austin Animal Center Intake Year 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Owner Surrender: Cats 2967 3194 3830 3279 2540 3122 2504 2210 1965 1305 1208 1448 Owner Surrender: Dogs 3355 3385 3646 3229 3295 3418 2698 2733 2369 2016 2000 1892 Stray: Cats 6299 4488 5369 4987 3975 5494 3723 5228 5667 5297 5980 5155 Stray: Dogs 8979 8799 9013 8020 7815 7816 6779 7466 7430 7601 7447 7299 Total Intake: Cats 9678 8125 9902 8790 6992 9187 6590 7614 7806 6835 7331 6793 Total Intake: Dogs 13423 13367 13842 12461 12300 12382 10661 11166 10852 10613 10430 10065 54 Appendix D: Travis County Dead Animal Pick Up Cats Dogs Total 2004 178 93 271 2005 569 326 895 2006 531 309 840 2007 705 349 1054 2008 672 311 983 2009 711 487 1198 2010 678 361 1039 2011 757 307 1064 2012 405 205 610 2013 625 270 895 2014 659 277 936 2015 589 230 819 2016 489 182 671 55 Appendix E: PASS Intake @ Austin Pets Alive! Year 2008 2009 2010 2011 2012 2013 2014 2015 2016 Dogs 66 30 113 169 95 453 563 467 734 Cats 3 64 28 282 67 195 391 333 740 56 Appendix F: AAC and APA Outcome Data 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 Cat Outcomes AAC Adopted 1807 1679 1883 2100 2096 2833 3067 2827 3146 2658 4532 3120 Return To Owner 212 172 253 299 335 496 384 307 337 315 337 304 Non APA Transfer 536 818 957 931 791 771 950 667 1733 1447 1407 1309 7009 5385 6692 5341 2805 3117 956 593 620 419 495 256 Other 115 64 98 91 97 205 104 101 81 80 104 127 AAC Total 9679 8118 9883 8762 6124 7422 5461 4495 5917 4919 6875 5116 APA Adopted 0 0 0 23 701 1471 2097 2989 2539 3090 3539 3450 Return to Owner 0 0 0 0 1 3 0 0 0 6 0 0 Euthanized 0 0 0 0 6 22 22 21 23 28 40 64 Other 0 0 0 0 69 133 207 799 168 190 204 215 APA Total 0 0 0 23 777 1629 2326 3809 2898 3314 3783 3729 Adopted 2535 2444 2442 2322 2792 3381 4398 4718 4275 4532 4554 4669 Return To Owner 2658 2765 2928 2895 2929 2968 2797 2691 2999 2923 3018 3084 Non APA Transfer 1542 1821 2026 1873 1899 1761 1129 1175 1257 1086 1093 881 Euthanized 6585 6186 6343 4587 3342 2862 1034 777 767 632 541 194 137 147 107 106 137 104 70 31 41 34 43 41 13457 13363 13846 11783 11099 11076 9428 9392 9339 9207 9249 8869 0 0 0 697 1304 1610 2868 3483 3188 3591 3450 3531 Return to Owner 0 0 0 0 0 5 7 4 22 18 9 10 Euthanized 0 0 0 2 14 12 28 20 36 40 48 89 Other 0 0 0 0 59 61 123 156 117 140 153 139 APA Total 0 0 0 699 1377 1688 3026 3663 3363 3789 3660 3769 Euthanized Dog Outcomes AAC Other AAC Total APA Adopted 57 Appendix G: APA Length of Stay Data for a random sample of 145 dogs in APA’s care in 2016 Total LOS Ave. Days Available for Adoption Ave. Days Not Available for Adoption 0-60 days 20 36 60-120 days 91 1 120-180 days 150 31 180-240 days 208 7 240-300 days 264 9 300-360 days 306 58 >360 days 534 75 58 Appendix H: AAC Budget 2009 2010 2011 2012 2013 2014 2015 $5,368,265 $5,959,503 $6,975,362 $7,813,733 $8,522,794 $9,021,282 $10,729,203 2016 A AAC Budget $12,061,551 City of Austin Budget 143 $2.63B $2.75B $2.8B $2.8B $3.1B $3.3B $3.5B $3.5B 0.217% 0.249% 0.279% 0.275% 0.273% 0.307% 0.345% A AC budget as % of City Budget 0.204% 143 https://austintexas.gov/financeonline/finance/financial_docs.cfm?ws=1&pg=1 59 Appendix I: IMPLAN Data 2010 Labor Income Direct Effect Value Added Output $835,629.75 $835,629.75 $1,391,411.62 Indirect Effect $32,912.61 $59,250.78 $112,911.90 Induced Effect $200,971.89 $365,547.32 $611,825.89 $1,069,514.68 $1,260,428.00 $2,116,149.19 TOTAL 2011 Labor Income Value Added Output $1,180,098.60 $1,180,098.60 $1,904,480.12 Indirect Effect $270,417.46 $481,162.96 $866,168.40 Induced Effect $292,839.62 $516,312.22 $871,498.42 $1,743,355.69 $2,177,573.14 $3,642,147.04 Direct Effect TOTAL 2012 Labor Income Value Added Output $1,984,692.95 $1,984,692.95 $2,572,250.59 Indirect Effect $218,320.18 $386,598.77 $708,475.24 Induced Effect $424,597.17 $744,743.74 $1,261,020.62 $2,627,610.29 $3,116,035.46 $4,541,746.46 Direct Effect TOTAL 2013 Labor Income Value Added Output $2,330,031.36 $2,330,031.36 $3,099,788.97 Indirect Effect $299,128.03 $567,300.85 $1,003,782.62 Induced Effect $621,117.82 $1,064,692.37 $1,781,838.70 $3,250,277.21 $3,962,024.58 $5,885,410.29 Direct Effect TOTAL 2014 Labor Income Value Added Output $2,647,035.30 $2,647,035.30 $3,582,467.00 Indirect Effect $382,765.97 $695,237.59 $1,224,643.88 Induced Effect $697,722.49 $1,219,847.78 $2,034,480.57 $3,727,523.75 $4,562,120.67 $6,841,591.44 Direct Effect TOTAL 60 2015 Labor Income Value Added Output $3,326,707.05 $3,326,707.05 $4,394,010.92 Indirect Effect $439,444.88 $759,870.85 $1,313,038.73 Induced Effect $915,474.86 $1,568,252.86 $2,613,909.53 TOTAL $4,681,626.80 $5,654,830.76 $8,320,959.18 Direct Effect Indirect Effect Induced Effect 2016 Labor Income Value Added $3,910,445.82 $3,910,445.82 $486,605.78 $841,481.00 $1,062,931.29 $1,820,838.62 Output $5,101,458.49 $1,454,177.79 $3,034,924.65 Direct Effect Indirect Effect Induced Effect TOTAL Total Labor Income Value Added $16,214,640.83 $16,214,640.83 $2,129,594.90 $3,790,902.81 $4,215,655.14 $7,300,234.90 $22,559,890.87 $27,305,778.54 Output $22,045,867.69 $6,683,198.55 $12,209,498.38 $40,938,564.63 Direct Effect 61 Appendix J: Lifetime Animal Spend (based on the National Pet Products Association Study) Average Lifespan in Years Cats 15 Dogs 12.8 Cats $193 Dogs $239 Cats $7 Dogs $7 Cats $203 Dogs $231 Cats $36 Dogs $65 Cats $23 Dogs $41 Cats $20 Dogs $61 Cats $337 Dogs $327 Cats $819 Dogs $971 Annual Spend Medical Care Licensing Food Treats Toys Grooming Boarding/Pet-sitting TOTAL Average lifetime spend per animal = (($819*15)+($971*12.8))/2 = $12,357 62 Appendix K: Pet-friendly Rental Housing Comparison Austin Portland Denver Nashville Raleigh Trulia Zillow Trulia Zillow Trulia Zillow Trulia Zillow Trulia Zillow 4/7/17 Total # of Rentals 2682 2096 1483 1109 2740 1686 865 956 892 756 Pet friendly 1201 1021 349 399 351 310 % pet friendly 45% 42% 39% 41% 749 594 1347 49% 51% 54% 49% 893 53% 40% 4/14/17 Total # of Rentals 2722 2134 1462 1096 2711 1683 863 950 899 768 Pet friendly 1204 1031 337 387 340 300 % pet friendly 44% 41% 38% 39% 735 571 1327 48% 50% 52% 49% 891 53% 39% 4/24/17 Total # of Rentals 2750 2138 1461 1089 2703 1683 859 917 873 740 Pet friendly 1185 1009 342 381 343 302 % pet friendly 43% 42% 39% 41% 734 569 1353 47% 50% 52% 50% 898 53% 40% 5/3/17 Total # of Rentals 2823 2198 1457 1069 2703 1655 854 933 868 744 Pet friendly 1217 1040 350 406 329 296 % pet friendly 43% 44% 38% 40% 713 534 1371 47% 49% 50% 51% 905 55% 41% 5/10/17 Total # of Rentals 3062 2350 1484 1082 2721 1678 911 1000 852 736 Pet friendly 1175 1006 381 326 294 % pet friendly 38% 45% 38% 40% 731 549 1383 43% 49% 51% 51% 929 55% 42% 446 63 Appendix L: Reasons for Moving (Current Population Survey, Annual Social and Economic Supplement, 2010-2016) Mobility Period Family Related Job Related Housing Related 2010-2016 Total 2010-2016 % Total Movers 249,662 100.0% Change in marital status 13,548 5.4% To establish own household 26,556 10.6% Other family reason 32,441 13.0% New job or job transfer 23,468 9.4% To look for work or lost job 5,101 2.0% Easier commute 14,181 5.7% Retired 1,531 0.6% Other job related reason 4,587 1.8% Wanted own home, not rent 12,875 5.2% Wanted new or better home/ apartment 39,819 15.9% Wanted better neighborhood /less crime 8,309 3.3% Wanted cheaper housing 22,565 9.0% Foreclosure/eviction 3,324 1.3% Other housing reason 28,564 11.4% To attend or leave college 3,621 1.5% 700 0.3% Health reasons 2,228 0.9% Natural disaster 156 0.1% Other uncategorized reasons 6,089 2.4% Total non-family, non-housing related reason movers 61,662 24.7% "Other uncategorized reasons" movers % of non-family non-housing related movers 6,089 9.87% Other Reasons Change of climate 64 Appendix M: Summary of Brand Equity Calculations City Branding Related No-Kill Impact Estimation Category Statistic Total Surplus (compared to all MSA, TX) Inmigrating Population in Travis County, 2010-2016 195,386 https://www.dshs.texas.gov/chs/popdat/default.shtm $61,451.00 https://www.census.gov/quickfacts/table/PST045125 /48453 Median Income (20112015) - Travis County Total Income by Surplus In-migrating population 2010-2016 $12,006,643,463 Local spending % (housing + entertainment + food) 40.7% Source Calculation http://www.pewtrusts.org/en/research-andanalysis/issue-briefs/2016/03/householdexpenditures-and-income Local Expenditure by Surplus In-migrating population 2010-2016 $4,883,823,723 % of Movers due to "Other" Reasons (Excluding non-family and non-housing)* 9.87% https://www.census.gov/prod/2014pubs/p20-574.pdf Adjusted No-Kill Related Moving % (From our survey results) 15.0% Survey Results Local Expenditure by Surplus In-migrating population due to No-Kill Related Movers, 20102016 $72,252,686 Calculation Calculation *Family factor cannot explain why Travis county has more in-migration compared to rest of Texas MSA. Housing prices went up faster in Travis County compared to rest of Texas. (https://fred.stlouisfed.org/series/ATNHPIUS48453A and https://fred.stlouisfed.org/series/TXSTHPI) 65 Appendix N: Austin Animal Services Bite Data Year 2000 Minor 610 Moderate 218 Severe 47 Unknown 34 Total 909 2001 689 188 39 31 947 2002 607 167 49 35 858 2003 599 113 15 37 764 2004 583 138 22 33 776 2005 603 133 15 27 778 2006 687 207 52 49 995 2007 708 228 32 47 1015 2008 682 260 52 71 1065 2009 711 260 44 59 1074 2010 732 350 45 95 1222 2011 873 402 62 112 1449 2012 4602 1147 211 389 6349 2013 1010 363 46 141 1560 2014 1232 260 50 52 1594 2015 1273 259 5 111 1648 66 Appendix 0: City of Austin Cruelty to Animals Cases Planning Unit Austin Police Department: Planning Unit 05/160017 Why: Katy Loughney Why: Carrie Dickerson Datum Number of Cruelty to Animal offenses by year for 20094016. Mobs: Provided all results by year reported. Sourcuuood: Versadex All? POLICE DATA DISCLAIIER 2. APO'smmbaunoonunwusly updated. sompo?srun aldl?orenlumos may produce abnormal: Caro dr?oromdata Year Cruelty to Reported Animal cases 2009 339 2010 373 201 1 485 2012 541 2013 477 2014 415 2015 414 2016 386 67 Appendix P: APA Donations Year Individual Total 2009 $151,247 $322,053 2010 $212,787 $268,868 2011 $731,808 $981,706 2012 $1,220,313 $1,949,377 2013 $1,146,922 $3,062,190 2014 $1,344,337 $2,231,750 2015 $1,747,776 $3,802,294 2016 $1,765,388 $3,934,280 Total $8,320,579 $16,552,516 68