INCREASED EGG CONSERVATION-IS IT ESSENTIAL FOR RECOVERY OF WHOOPING CRANES IN THE ARANSASIWOOD BUFFALO POPULATION?

The whooping crane (Grus americana) is in a race for survival against adversities (genetic, demographic, and environmental) that are only partially understood. There is increasing evidence of genetic problems (drift, inbreeding, and loss of heterozygosity) in the captive population that likely also...

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Main Author: LEWIS, JAMES C.
Format: Text
Language:unknown
Published: DigitalCommons@University of Nebraska - Lincoln 2001
Subjects:
conservation
Grus americana
management
whooping crane
Animal Sciences
Behavior and Ethology
Biodiversity
Ornithology
Population Biology
Terrestrial and Aquatic Ecology
Wood Buffalo
Online Access:https://digitalcommons.unl.edu/nacwgproc/80
https://digitalcommons.unl.edu/context/nacwgproc/article/1076/viewcontent/Lewis___Increased_Egg.pdf
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spelling ftunivnebraskali:oai:digitalcommons.unl.edu:nacwgproc-1076 2023-11-12T04:27:58+01:00 INCREASED EGG CONSERVATION-IS IT ESSENTIAL FOR RECOVERY OF WHOOPING CRANES IN THE ARANSASIWOOD BUFFALO POPULATION? LEWIS, JAMES C. 2001-01-01T08:00:00Z application/pdf https://digitalcommons.unl.edu/nacwgproc/80 https://digitalcommons.unl.edu/context/nacwgproc/article/1076/viewcontent/Lewis___Increased_Egg.pdf unknown DigitalCommons@University of Nebraska - Lincoln https://digitalcommons.unl.edu/nacwgproc/80 https://digitalcommons.unl.edu/context/nacwgproc/article/1076/viewcontent/Lewis___Increased_Egg.pdf Proceedings of the North American Crane Workshop conservation Grus americana management whooping crane Animal Sciences Behavior and Ethology Biodiversity Ornithology Population Biology Terrestrial and Aquatic Ecology text 2001 ftunivnebraskali 2023-10-30T11:15:10Z The whooping crane (Grus americana) is in a race for survival against adversities (genetic, demographic, and environmental) that are only partially understood. There is increasing evidence of genetic problems (drift, inbreeding, and loss of heterozygosity) in the captive population that likely also exist in the wild Aransas-Wood Buffalo Population (A WP), a consequence of the 1940s population bottleneck. Small populations are vulnerable to extinction through catastrophic events and random changes in productivity or survival. Negative environmental effects faced by whooping cranes include upstream diversion which diminish freshwater (nutrient) inflow into Texas wintering habitats, and expanding human activities along the coast of the Gulf of Mexico. Population and genetic specialists tell us that security against genetic problems, demographic fluctuations, and environmental changes, lies in maximizing population size. An appropriate minimum population goal to overcome the aforementioned problems is 1,000 individuals (Shaffer 1981, Salwasser et al. 1984, Mirande et al. 1993). The Canadian- United States Whooping Crane Recovery Team has accepted 1,000 birds as their goal for the A WP. If habitat is not limiting and inbreeding does not depress viability (rather large uncertainties), another 30+ years must pass before the A WP reaches 1,000 individuals (Mirande et al. 1993). Can the A WP survive 30+ years to reach a minimum secure population level? It seems evident that managers should be cautious and consider what might be done to accelerate A WP growth. Two potential techniques come to mind. One would be to supplement the population with introductions of captive-reared cranes. In previous brief discussions by the recovery teams, this approach has been discounted because of potential disease transmission to the only wild self-sustaining population. The second technique would be to initiate intensive egg management (Fig. 1) as described by Ellis and Gee (2001). Text Wood Buffalo University of Nebraska-Lincoln: DigitalCommons@UNL Wood Buffalo ENVELOPE(-112.007,-112.007,57.664,57.664)
institution Open Polar
collection University of Nebraska-Lincoln: DigitalCommons@UNL
op_collection_id ftunivnebraskali
language unknown
topic conservation
Grus americana
management
whooping crane
Animal Sciences
Behavior and Ethology
Biodiversity
Ornithology
Population Biology
Terrestrial and Aquatic Ecology
spellingShingle conservation
Grus americana
management
whooping crane
Animal Sciences
Behavior and Ethology
Biodiversity
Ornithology
Population Biology
Terrestrial and Aquatic Ecology
LEWIS, JAMES C.
INCREASED EGG CONSERVATION-IS IT ESSENTIAL FOR RECOVERY OF WHOOPING CRANES IN THE ARANSASIWOOD BUFFALO POPULATION?
topic_facet conservation
Grus americana
management
whooping crane
Animal Sciences
Behavior and Ethology
Biodiversity
Ornithology
Population Biology
Terrestrial and Aquatic Ecology
description The whooping crane (Grus americana) is in a race for survival against adversities (genetic, demographic, and environmental) that are only partially understood. There is increasing evidence of genetic problems (drift, inbreeding, and loss of heterozygosity) in the captive population that likely also exist in the wild Aransas-Wood Buffalo Population (A WP), a consequence of the 1940s population bottleneck. Small populations are vulnerable to extinction through catastrophic events and random changes in productivity or survival. Negative environmental effects faced by whooping cranes include upstream diversion which diminish freshwater (nutrient) inflow into Texas wintering habitats, and expanding human activities along the coast of the Gulf of Mexico. Population and genetic specialists tell us that security against genetic problems, demographic fluctuations, and environmental changes, lies in maximizing population size. An appropriate minimum population goal to overcome the aforementioned problems is 1,000 individuals (Shaffer 1981, Salwasser et al. 1984, Mirande et al. 1993). The Canadian- United States Whooping Crane Recovery Team has accepted 1,000 birds as their goal for the A WP. If habitat is not limiting and inbreeding does not depress viability (rather large uncertainties), another 30+ years must pass before the A WP reaches 1,000 individuals (Mirande et al. 1993). Can the A WP survive 30+ years to reach a minimum secure population level? It seems evident that managers should be cautious and consider what might be done to accelerate A WP growth. Two potential techniques come to mind. One would be to supplement the population with introductions of captive-reared cranes. In previous brief discussions by the recovery teams, this approach has been discounted because of potential disease transmission to the only wild self-sustaining population. The second technique would be to initiate intensive egg management (Fig. 1) as described by Ellis and Gee (2001).
format Text
author LEWIS, JAMES C.
author_facet LEWIS, JAMES C.
author_sort LEWIS, JAMES C.
title INCREASED EGG CONSERVATION-IS IT ESSENTIAL FOR RECOVERY OF WHOOPING CRANES IN THE ARANSASIWOOD BUFFALO POPULATION?
title_short INCREASED EGG CONSERVATION-IS IT ESSENTIAL FOR RECOVERY OF WHOOPING CRANES IN THE ARANSASIWOOD BUFFALO POPULATION?
title_full INCREASED EGG CONSERVATION-IS IT ESSENTIAL FOR RECOVERY OF WHOOPING CRANES IN THE ARANSASIWOOD BUFFALO POPULATION?
title_fullStr INCREASED EGG CONSERVATION-IS IT ESSENTIAL FOR RECOVERY OF WHOOPING CRANES IN THE ARANSASIWOOD BUFFALO POPULATION?
title_full_unstemmed INCREASED EGG CONSERVATION-IS IT ESSENTIAL FOR RECOVERY OF WHOOPING CRANES IN THE ARANSASIWOOD BUFFALO POPULATION?
title_sort increased egg conservation-is it essential for recovery of whooping cranes in the aransasiwood buffalo population?
publisher DigitalCommons@University of Nebraska - Lincoln
publishDate 2001
url https://digitalcommons.unl.edu/nacwgproc/80
https://digitalcommons.unl.edu/context/nacwgproc/article/1076/viewcontent/Lewis___Increased_Egg.pdf
long_lat ENVELOPE(-112.007,-112.007,57.664,57.664)
geographic Wood Buffalo
geographic_facet Wood Buffalo
genre Wood Buffalo
genre_facet Wood Buffalo
op_source Proceedings of the North American Crane Workshop
op_relation https://digitalcommons.unl.edu/nacwgproc/80
https://digitalcommons.unl.edu/context/nacwgproc/article/1076/viewcontent/Lewis___Increased_Egg.pdf
_version_ 1782341367624630272

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