Synthesis of Noise Effects on Wildlife Populations - PowerPoint PPT Presentation

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Synthesis of Noise Effects on Wildlife Populations

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Title: Synthesis of Noise Effects on Wildlife Populations


1
Synthesis of Noise Effects on Wildlife Populations
  • Paul Kaseloo
  • Department of Biology
  • Virginia State University

2
Purpose
  • To create a review and literature database that
    could be used to review the effects of noise
    (particularly road noise) on wildlife
  • Covers animals (invertebrate and vertebrate)
    greatest amount of information deals with birds
    and mammals

3
Background
  • It has been estimated (in part based on the
    estimates of the effects on birds) that 20 of
    the land area of the United States is
    ecologically affected by public roads
  • (Forman, 2000 Cons. Biol. 1431-35)

4
Questions
  • What is known about the response of birds to road
    noise?
  • What are the implications of these findings?
  • What future work could be considered to answer
    outstanding questions?

5
Effect Distance
  • The distance from the road up to the point where
    reduced density was recorded

6
Early work
  • Avoidance (i.e. reduced breeding density) by at
    least two grassland species (lapwing and
    black-tailed godwit)
  • Rural road (Effect distance 500-600 m) with 50
    vehicles/day
  • Highway (Effect distance 1600-1800 m) with
    54,000 vehicles/day
  • (van der Zande et al., 1980 Biol. Cons.
    18299-321)

7
Woodland birds
  • A study of 43 bird species (in deciduous and
    coniferous forests) found reduced breeding
    densities of 26 species (60) with effect
    distances that increase with the amount of
    traffic
  • 401500 m at 10,000 vehicles/day
  • 70-2800 m at 60,000 vehicles/day
  • (Reijnen et al., 1995 J. Appl. Ecol.
    32187-202)

8
Woodland birds (cont)
  • In a multi-year study 17 of 23 species studied
    showed a decrease in breeding density near the
    road in at least one year (40-52,000
    vehicles/day)
  • This effect was reduced (only 4 species) in years
    with high population density

9
Woodland birds
  • High overall population levels will lead to
    underestimation of the quality of the habitat
    (i.e. would not see the effect in years of high
    density)
  • (Reijnen and Foppen, 1995 J. Appl. Ecol.
    32481-491)

10
(Reijnen et al., 1997 Biodiv. Cons. 6567-581)
11
Grassland Birds
  • Similar to the earlier study 7 of 12 species
    studied showed a reduction in breeding density
    adjacent to roads
  • The effect distances varied with species and
    increased with traffic density

12
Grassland birds (cont)
  • Effect distances ranged between
  • 20-1700 m at 5,000 vehicles/day
  • 65-3530 m at 50,000 vehicles/day
  • (Reijnen et al., 1996 Biol. Cons. 75255-260)

13
Grassland Birds (cont)
  • Five years of data on birds (mainly based on two
    species - bobolinks and meadowlarks) near Boston
    found
  • Effect distances
  • 3,000-8,000 vehicles/day none
  • 8,000-15,000 vehicles/day 400 m
    (breeding only)
  • 15,000-30,000 vehicles/day 700 m
  • 30,000 vehicles/day 1200 m
  • (Forman et al., 2002 Environ. Manage.
    29782-800)

14
Previous Recommendations
  • Sound levels above about 50 dB(A)
  • Estimate effect distances of about 1000 m
  • (Reijnen et al., 1997 Biodiv. Cons.
    6567-581)

15
Other Possible Causes
  • Visual disturbance
  • Air pollution
  • Microclimatic effects
  • Road kill
  • Increased attraction of predators
  • Unlikely to have an effect at the distances
    reported
  • (Forman et al., 2002 Environ. Manage.
    29782-800)

16
Other Considerations
  • Not all species appear sensitive
  • (e.g. Study in Spain estimated 15 of breeding
    bird species sensitive, although total density
    did not differ at different levels of traffic)
  • (Peris and Pescador, 2004 Appl. Acoustics
    65357-366)
  • Some species become more common near roads
    (ecotonal environment)
  • (Michael et al., 1976 Proc. 1st Nat. Symp.
    Environ. Conc.) (Ferris, 1979 J. Wildl.
    Manage. 43421-427)
  • (Adams and Geis, 1981 FHWA/RD-81/067)

17
Other Considerations
  • Some species breed well even in noisy
    environments (e.g. California gnatcatchers)
  • (Awbrey et al., 1995 Inter-noise 65971-974)

18
Other Considerations
  • Rights-of-way have been shown to provide breeding
    habitat for some species (e.g. pheasants, ducks,
    passerines) particularly in areas of
    disturbance such as agricultural areas
  • (Warner and Joselyn, 1986 J. Wildl. Manage.
    50525-532)
  • (Oetting and Cassel, 1971 J. Wildl. Manage.
    35774-781)
  • (Voorhees and Cassel, 1980 J. Wildl. Manage.
    44155-163)
  • (Laursen, 1981 Biol. Cons. 2059-68)
  • (Warner, 1992 Biol. Cons. 591-7)

19
Mechanisms
  • It has been found that higher-pitched frequencies
    in bird songs may make species less susceptible
    to noise effects from roads implying masking as a
    causative mechanism
  • (Rheindt 2003 J. für Ornith. 144295-306)

20
Mechanisms
  • Birds in noisier urban environments also
    increased amplitude of songs when background
    noise increased
  • (Brumm, 2004 J. Anim. Ecol. 73434-440)

21
Important Questions
  • Is noise alone sufficient to cause the effect
    seen?
  • It has been established that it is not the
    presence of a road, but the level of traffic that
    influences the densities of birds, presumably due
    to noise because of the distances involved
  • Will mitigation of noise alone be sufficient to
    change the response?

22
(Reijnen et al., 1997 Biodiv. Cons. 6567-581)
23
Future Research
  • Can noise (as opposed to noise with associated
    traffic) cause the same effect? (i.e. can
    mitigation of noise be expected to reduce the
    effect zone)
  • Will reduction in noise lead to a return of
    affected species? (How long until this response
    is seen?)

24
Future Research
  • What are the proximate effects of noise on birds?
  • Masking of vocalization?
  • Physiological changes?
  • Locomotor activity?
  • Behavioral patterns?

25
Future Research
  • Can we see areas where noise mitigation (for
    other purposes) has altered species composition
    compared to areas without mitigation?

26
Acknowledgements
  • Undergraduate research assistant Katherine Tyson
  • Paul Garrett _at_ FHWA for support and advice
  • Funded through FHWA cooperative agreement
    DTFH61-03-H-00123

27
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