Climate Change Indicators in the United States Technical Documentation Bird Wintering Ranges

Bird Wintering Ranges

Identification

1. Indicator Description

This indicator examines changes in the winter ranges of North American birds from the winter of 1966-
1967 to 2013. Changes in climate can affect ecosystems by influencing animal behavior and ranges. Birds
are a particularly strong indicator of environmental change for several reasons described in the indicator
text. This indicator focuses in particular on latitude—how far north or south birds travel—and distance
from the coast. Inland areas tend to experience more extreme cold than coastal areas, but birds may
shift inland over time as winter temperature extremes grow less severe.

Components of this indicator include:

• Shifts in the latitude of winter ranges of North American birds over the past half-century
(Figure 1).

• Shifts in the distance to the coast of winter ranges of North American birds over the past half-
century (Figure 2).

2. Revision History

April 2010: Indicator published.

May 2014: Updated indicator with data through 2013.

Data Sources

3. Data Sources

This indicator is based on data collected by the annual Christmas Bird Count (CBC), managed by the
National Audubon Society. Data used in this indicator are collected by citizen scientists who
systematically survey certain areas and identify and count widespread bird species. The CBC has been in
operation since 1900, but data used in this indicator begin in winter 1966-1967.

4. Data Availability

Complete CBC data are available in both print and electronic formats. Historical CBC data have been
published in several periodicals—Audubon Field Notes, American Birds, and Field Notes—beginning in
1998. Additionally, historical, current year, and annual summary CBC data are available online at:
www.audubon.org/conservation/science/christmas-bird-count. Descriptions of data are available with
the data queried online. The appendix to National Audubon Society (2009) provides 40-year trends for
each species, but not the full set of data by year. EPA obtained the complete data set for this indicator,
with trends and species-specific data through 2013, directly from the National Audubon Society.

A similar analysis is available from an interagency consortium at: www.stateofthebirds.org/2010.

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Methodology

5. Data Collection

This indicator is based on data collected by the annual CBC, managed by the National Audubon Society.
Data used in this indicator are collected by citizen scientists who systematically survey certain areas and
identify and count widespread bird species. Although the indicator relies on human observation rather
than precise measuring instruments, the people who collect the data are skilled observers who follow
strict protocols that are consistent across time and space. These data have supported many peer-
reviewed studies, a list of which can be found on the National Audubon Society's website at:
www.audubon.org/conservation/christmas-bird-count-bibliography.

Bird surveys take place each year in approximately 2,000 different locations throughout the contiguous
48 states and the southern portions of Alaska and Canada. All local counts take place between
December 14 and January 5 of each winter. Each local count takes place over a 24-hour period in a
defined "count circle" that is 15 miles in diameter. A variable number of volunteer observers separate
into field parties, which survey different areas of the count circle and tally the total number of
individuals of each species observed (National Audubon Society, 2009). This indicator covers 305 bird
species, which are listed in Appendix 1 of National Audubon Society (2009). These species were included
because they are widespread and they met specific criteria for data availability.

The entire study description, including a list of species and a description of sampling methods and
analyses performed, can be found in National Audubon Society (2009) and references therein.
Information on this study is also available on the National Audubon Society website at:
http://web4.audubon.org/bird/bacc/techreport.html. For additional information on CBC survey design
and methods, see the reports classified as "Methods" in the list at:
http://www.audubon.org/conservation/christmas-bird-count-bibliography.

6. Indicator Derivation

At the end of the 24-hour observation period, each count circle tallies the total number of individuals of
each species seen in the count circle. Audubon scientists then run the data through several levels of
analysis and quality control to determine final count numbers from each circle and each region. Data
processing steps include corrections for different levels of sampling effort—for example, if some count
circles had more observers and more person-hours of effort than others. Population trends over the 40-
year period of this indicator and annual indices of abundance were estimated for the entire survey area
with hierarchical models in a Bayesian analysis using Markov chain Monte Carlo techniques (National
Audubon Society, 2009).

This indicator is based on the center of abundance for each species, which is the center of the
population distribution at any point in time. In terms of latitude, half of the individuals in the population
live north of the center of abundance and the other half live to the south. Similarly, in terms of
longitude, half of the individuals live west of the center of abundance, and the other half live to the east.
The center of abundance is a common way to characterize the general location of a population. For
example, if a population were to shift generally northward, the center of abundance would be expected
to shift northward as well.

This indicator examines the center of abundance from two perspectives:

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• Latitude—testing the hypothesis that bird populations are moving northward along with the
observed rise in overall temperatures throughout North America.

• Distance from coast—testing the hypothesis that bird populations are able to move further
from the coast as a generally warming climate moderates the inland temperature extremes
that would normally occur in the winter.

• This indicator reports the position of the center of abundance for each year, relative to the
position of the center of abundance in 1966 (winter 1966-1967). The change in position is
averaged across all 305 species for changes in latitude (Figure 1) and across 272 species for
changes in distance from the coast (Figure 2). The indicator excludes 33 species from the
analysis of distance from the coast because these species depend on a saltwater or brackish
water habitat. Lake shorelines (including the Great Lakes) were not considered coastlines for
the purposes of the "distance from coast" metric.

• Figures 1 and 2 show average distances moved north and moved inland, based on an
unweighted average of all species. Thus, no adjustments are made for population differences
across species.

No attempt was made to generate estimates outside the surveyed area. The indicator does not include
Mexico or northern parts of Alaska and Canada because data for these areas were too sparse to support
meaningful trend analysis. Due to its distance from the North American continent, Hawaii is also omitted
from the analysis. No attempt was made to estimate trends prior to 1966 (i.e., prior to the availability of
complete spatial coverage and standardized methods), and no attempt was made to project trends into
the future.

The entire study description, including analyses performed, can be found in National Audubon Society
(2009) and references therein. Information on this study is also available on the National Audubon
Society website at: http://web4.audubon.org/bird/bacc/techreport.html.

7. Quality Assurance and Quality Control

As part of the overall data compilation effort, Audubon scientists have performed several statistical
analyses to ensure that potential error and variability are adequately addressed. Quality
assurance/quality control procedures are described in National Audubon Society (2009) and in a variety
of methodology reports listed at: www.audubon.org/conservation/christmas-bird-count-bibliography.

Analysis

8. Comparability Over Time and Space

The CBC has been in operation since 1900, but data used in this indicator begin in winter 1966-1967.
The National Audubon Society chose this start date to ensure sufficient sample size throughout the
survey area as well as consistent methods, as the CBC design and methodology have remained generally
consistent since the 1960s. All local counts take place between December 14 and January 5 of each
winter, and they follow consistent methods regardless of the location.

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9. Data Limitations

Factors that may impact the confidence, application, or conclusions drawn from this indicator are as
follows:

1. Many factors can influence bird ranges, including food availability, habitat alteration, and
interactions with other species. Some of the birds covered in this indicator might have moved
northward or inland for reasons other than changing temperatures.

2. This indicator does not show how responses to climate change vary among different types of
birds. For example, National Audubon Society (2009) found large differences between coastal
birds, grassland birds, and birds adapted to feeders, which all have varying abilities to adapt to
temperature changes. This Audubon report also shows the large differences between individual
species—some of which moved hundreds of miles while others did not move significantly at all.

3. Some data variations are caused by differences between count circles, such as inconsistent
level of effort by volunteer observers, but these differences are carefully corrected in
Audubon's statistical analysis.

4. While observers attempt to identify and count every bird observed during the 24-hour
observation period, rare and nocturnal species may be undersampled. Gregarious species (i.e.,
species that tend to gather in large groups) can also be difficult to count, and they could be
either overcounted or undercounted, depending on group size and the visibility of their roosts.
These species tend to congregate in known and expected locations along CBC routes, however,
so observers virtually always know to check these spots. Locations with large roosts are often
assigned to observers with specific experience in estimating large numbers of birds.

5. The tendency for saltwater-dependent species to stay near coastlines could impact the change
in latitude calculation for species living near the Gulf of Mexico. By integrating these species
into the latitudinal calculation, Figure 1 may understate the total extent of northward
movement of species.

10. Sources of Uncertainty

The sources of uncertainty in this indicator have been analyzed, quantified, and accounted for to the
extent possible. The statistical significance of the trends suggests that the conclusions one might draw
from this indicator are robust.

One potential source of uncertainty in these data is uneven effort among count circles. Various studies
that discuss the best ways to account for this source of error have been published in peer-reviewed
journals. Link and Sauer (1999) describe the methods that Audubon used to account for variability in
effort.

11. Sources of Variability

Rare or difficult-to-observe bird species could lead to increased variability. For this analysis, the National
Audubon Society included only 305 widespread bird species that met criteria for abundance and the
availability of data to enable the detection of meaningful trends.

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12. Statistical/Trend Analysis

Appendix 1 of National Audubon Society (2009) documents the statistical significance of trends in the
wintering range for each species included in an earlier version of this indicator. Using annual data points
for each species, EPA applied an ordinary least-squares regression to determine the statistical
significance of each species' movement, as well as the statistical significance of each overall trend.
Tables TD-1 and TD-2 present these two analyses. Both of these tables are based on an analysis of all
305 species that the National Audubon Society studied.

Table TD-1. Statistical Analyses of Aggregate (All Species) Trends

Indicator component

Regression slope

P-value

Total miles
moved

Northward (latitude)

0.993 miles/year

<0.0001

46.7

Inward from the coast

0.231 miles/year

<0.0001

10.9

Table TD-2. Statistical Analyses of Species-Specific Trends

Statistical calculation

Figure 1

Figure 2

Species with significant* northward/inward movement

186

174

Species with significant* southward/coastward movement

Species with northward/inward movement >200 miles

*ln Tables TD-1 and TD2, "significant" refers to 95 percent confidence (p < 0.05).

The shaded bands in Figures 1 and 2 show 95 percent upper and lower credible intervals, which are
Bayesian statistical outputs that are analogous to 95 percent confidence intervals.

Other published studies have also found evidence of shifts in bird wintering ranges over time using
these data. For example, La Sorte and Thompson (2007) analyzed long-term data from the CBC and
concluded that ranges have shifted northward, even after accounting for various regional influences.

References

La Sorte, F.A., and F.R. Thompson III. 2007. Poleward shifts in winter ranges of North American birds.
Ecology 88(7):1803-1812.

Link, W.A., and J.R. Sauer. 1999. Controlling for varying effort in count surveys: An analysis of Christmas
Bird Count data. J. Agric. Biol. Envir. S. 4:116-125.

National Audubon Society. 2009. Northward shifts in the abundance of North American birds in early
winter: a response to warmer winter temperatures?
http://web4.audubon.org/bird/bacc/techreport.html.

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