Final Supplemental Environmental Impact Statement
Keystone XL Project

3.3

Chapter 3
Affected Environment

WATER RESOURCES

3.3.1

Introduction

This section discusses water resources in the proposed Project area. The description of water
resources is based on information provided in the 2011 Final Environmental Impact Statement
(Final EIS) as well as new circumstances or information relevant to environmental concerns that
have become available since the publication of the Final EIS, including the proposed major
reroute in Nebraska and numerous minor (less than 1 mile) route modifications in Montana and
South Dakota. The information provided here builds on the information provided in the Final
EIS as well as the 2013 Draft Supplemental EIS and, in many instances, replicates that
information with relatively minor changes and updates: other information is entirely new or
substantially altered from that presented in the Final EIS.
Specifically, the following information, data, methods, and/or analyses have been substantially
updated from the 2011 document:
•

Well data (depth, hydrogeology, and water quality) near the proposed Project area in
Montana and South Dakota were added.

•

Tribal lands are considered in the Surface Water sections.

•

Major proposed route modifications in much of Nebraska necessitated new data collection
and analysis including wells locations, water depths, water quality, and hydrogeologic
(aquifer) analysis.

•

The number and type of stream crossings and stream crossing methods have changed due to
route modifications as well as updated field survey information provided by TransCanada
Keystone Pipeline, LP (Keystone). The stream crossing assessment was comprised of a
desktop analysis based on National Hydrography Dataset (NHD) information and
supplemented by Keystone field survey descriptions where available.

•

Based on the limitations of the data used in the desktop analysis, the intermittent and
ephemeral stream categories were combined and assessed as intermittent streams, and no
distinction between these categories was maintained. This document separates makes the
distinction between ephemeral and intermittent streams.

•

State and federally designated or mapped floodplain areas were assessed in Montana, South
Dakota, and Nebraska from publicly available map data. Not all counties along the proposed
Project route are mapped. Project locations that intersected mapped floodplains were listed.

•

Floodplains for the Cheyenne, Little Missouri, and Bad River in South Dakota were
identified in a desktop analysis that included effective floodplain areas regardless of
designation.

•

The number and depth of reported wells within one mile of the proposed pipeline route have
been identified.

•

A detailed discussion of the aquifers and aquifer properties was added.

•

A major new alignment in the sand hills portion of Nebraska and an assessment of existing
conditions associated with the new alignment were added.
3.3-1

 Final Supplemental Environmental Impact Statement
Keystone XL Project

Chapter 3
Affected Environment

•

A cross-section showing the general relationship of geologic and hydrologic units was added;

•

Maps showing well locations and depths by state were added.

•

Tables on the well information by route mile were updated and new tables were added.

The following information, data, methods, and/or analyses have been substantially updated from
the 2013 Draft Supplemental EIS:
•

Well data details were added or updated along the alignment route including Geographic
Information System map coordinates for each registered well;

•

A discussion of stream crossing methodology was expanded, including boring techniques.

•

Specific discussions of spill potential and potential effects have been moved to Sections 4.3,
Water Resources, and 4.13, Potential Releases.

•

Additional discussion of Wild and Scenic Rivers Act designated segments has been added.

•

Route modifications included a relocation of the Niobrara River crossing. This crossing is
located between designated Wild and Scenic River segments managed by the National Park
Service. Portions of the Missouri River watershed that could be affected by proposed
Project’s construction activities, operations, or potential releases have been included in this
analysis.

•

Water distribution system crossing criteria supplied by the U.S. Bureau of Reclamation
(BOR), specifically as it relates to the Mni Wiconi water line crossed by the proposed project
was added.

•

BOR facility locations listed by approximate milepost (MP) as crossed by the proposed
Project were added.

•

In response to public and agency comments, text has been revised throughout the section
where necessary.

Summary
The proposed Project would cross several primary groundwater aquifers 1 and regional aquitards 2
in the Project area. The aquifers encountered within the Project area range from large regional
aquifers present in multiple states to shallow alluvial aquifers related to stream sediment, aeolian,
and loess deposits 3. The primary groundwater aquifers within the Project area include the Great
Plains Aquifer (GPA), the Western Interior Plains Aquifer (WIPA), the Northern Great Plains
Aquifer System (NGPAS), the Northern High Plains Aquifer (NHPAQ), and multiple unnamed
alluvial aquifers. Within the Project area, the pipeline crosses approximately 25 miles of alluvial
aquifers underlain by aquitards, 226 miles of the NGPAS, and 294 miles of the NHPAQ
(190 miles of which are combined NHPAQ and alluvial aquifers).

1

An aquifer is a geological formation, groups of formations, or part of a formation that is capable of yielding a
significant amount of water to a well or spring.
2
An aquitard is a confining bed that retards but does not prevent the flow of water to or from an adjacent aquifer.
3
Loess is a blanket deposit of buff-colored calcareous silt, homogeneous, nonstratified, weakly coherent, porous,
and friable (easily crumbled); it is thought to be from windblown dust of Pleistocene in age.

3.3-2

 Final Supplemental Environmental Impact Statement
Keystone XL Project

Chapter 3
Affected Environment

Depth to first groundwater within the Project corridor is reported to range from zero feet deep to
over 300 feet deep. Water bearing zones with reported water depths of less than 50 feet below
ground surface (bgs) and within 1 mile of the proposed Project corridor were identified for
potential groundwater quality impacts from pipeline construction and operations. Based on
available well records, approximately 250 to 300 miles of the proposed Project corridor have
reported groundwater depths of less than 50 feet bgs. Deeper aquifers below 300 feet or that are
saline were excluded from evaluation except where groundwater extraction activities occur.
Federal, state, and local databases were searched to compile groundwater information from
domestic, irrigation, and public water supply well data. Agency-sponsored water quality
information as well as available databases indicated that water within the proposed Project area
contains moderate to high levels of total dissolved solids (TDS), dissolved carbonates, and
nitrates. The primary source of TDS is attributed to saline intrusions 4 from deeper aquifers while
the elevated nitrate concentration is attributed to soil characteristics and agricultural activities.
The proposed Project route would cross approximately 1,073 surface waterbodies; of those, 14
are planned for crossing with the horizontal directional drill (HDD) construction method. In
addition to HDD pipeline installations, for some waterbody crossings the Project would use
variations of open trench pipeline installations to protect habitats and aquatic species that depend
on flowing surface water. Some waterbodies that the proposed Project encounters would require
site-specific design and permitting based on protected conditions or areas that were determined
to be of high consequence. The Pipeline and Hazardous Materials Safety Administration
identifies High Consequence Areas for hazardous liquid pipelines. These designations focus on
populated areas, drinking water sources, and unusually sensitive ecological resources. These are
specific locations where a spill could have the most significant adverse consequences. Once
identified, pipeline operators are required to devote additional focus, efforts, and analysis in High
Consequence Areas to ensure the integrity of pipelines.
Figure 3.3.1-1 provides a summary of waterbodies crossed by the proposed Project for each
state 5. These are separated by waterbody categories (Perennial, Intermittent, Canals and Other).
Waterbodies categorized as other include manmade seasonal impoundments and ponds.

4

Saline intrusion is a marine geologic deposit that can contain high concentrations of salt, which can leach into
groundwater that comes in contact with the rocks. This water cannot be used by animals or crops without treatment
and therefore is not used. This high salt (saline) water is typically below geologic deposits that contain usable
groundwater.
5
In addition to the planned pipeline, the additional supporting infrastructure for the proposed Project (a pipe yard
and a rail siding in North Dakota and two pumps stations in Kansas) are not anticipated to impact surface
waterbodies; therefore North Dakota and Kanas have no entries in the waterbody summaries or tables in this section.

3.3-3

 Final Supplemental Environmental Impact Statement
Keystone XL Project

Waterbody Name
Frenchman River
Milk River
Yellowstone River
Buggy Creek
Sandstone Creek
Pennel Creek

Chapter 3
Affected Environment

Parameters of Concern
Alteration in stream-side or littoral, vegetative covers, chlorophyll-a, lowflow alterations
E. coli, lead, mercury
Fish-passage barrier
Iron
Nitrate/nitrite (nitrite + nitrate as N), nitrogen (total)
TDS

Sources: USGS 2012a, MDEQ 2012

Water Supplies
Along the proposed pipeline ROW in Montana, municipal water supplies are largely obtained
from groundwater sources and are described in Section 3.3.2, Groundwater. No intake or
diversion sources for municipal surface water supplies are known to be located within 1 mile of
the proposed Project ROW.
The Fort Peck Assiniboine & Sioux Rural Water Supply System (ASRWSS) operates a surface
water withdrawal from the Missouri River near Poplar, Montana. The diversion is approximately
77 river miles downstream of the proposed Project crossing of the Missouri River, and it supplies
raw water to the ASRWSS water treatment plant in Poplar. This system provides potable water
to the Fort Peck Indian Reservation through the ASRWSS and to the residents of portions of
Valley, Daniels, Sheridan, and Roosevelt counties through the Dry Prairie Rural Water
Association. The ASRWSS replaces previous groundwater supplies that are no longer in use.
The proposed pipeline ROW does not cross any ASRWSS-related infrastructure. The Fort PeckMontana Compact indicates that multiple water rights and withdrawals are allotted on the
Missouri River in Montana`.
There are 178 lakes, ponds, or reservoirs, located within 10 miles downstream of a proposed
water crossing in Montana, which have the potential for one or all of the following uses:
recreation, livestock watering, or agricultural water supply (see Appendix D, Waterbody
Crossing Tables and Required Crossing Criteria for Reclamation Facilities, Table 7). Named
waterbodies with a surface area in excess of 10 acres and within the 10-mile downstream range
include Lindsay Reservoir and Salsbery Reservoir. Additionally, there are four waterbodies that
are unnamed on the NHD with surface areas of 10 acres or larger within the 10-mile downstream
range.
3.3.3.2

South Dakota Surface Water

The proposed pipeline ROW traverses the non-glaciated Missouri Plateau physiographic region
of South Dakota, which is characterized by rolling plains of shale and sandstone interrupted by
occasional buttes. The rolling surface of the non-glaciated Missouri Plateau has many low scarps
(very steep slopes often created by erosion), indicating a geologically old landscape, in contrast
to a mantle of glacial till and geologically young landscapes to the north. Some areas resemble
dissected, badland terrain and deeply entrenched river breaks (Hogan 1995). Streams are mostly
ephemeral 15 and intermittent with a few larger perennial rivers that cross the region from the
15

An ephemeral stream, river, pond, or lake is that which only flows or is present for a short period following
precipitation or snowmelt.

3.3-37