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3. Zoos and Captive Breeding

Author

CONDE, D. A., FLESNESS, N., COLCHERO, F., JONES, O. R., and SCHEUERLEIN, A.

Published
2011

5. Data from: Data gaps and opportunities for comparative and conservation biology

Author

Conde, Dalia A., Staerk, J., Colchero, F., da Silva, R., Schöley, J., Baden, H. Maria, Jouvet, L., Fa, John E., Syed, H., Jongejans, E., Meiri, S., Gaillard, J.M., Chamberlain, S., Wilcken, J., Jones, Owen R., Dahlgren, J. P., Steiner, U. K., Bland, L. M., Gomez-Mestre, Iván, Lebreton, J.D., Vargas, J. G., Flesness, N., Canudas-Romo, V., Salguero-Gómez, R., Byers, O., Berg, T.B., Scheuerlein, A., Devillard, S., Schigel, Dmitry S., Ryder, O.A., Possingham, Hugh P., Baudisch, A., Vaupel, J. W., Conde, Dalia A., Staerk, J., Colchero, F., da Silva, R., Schöley, J., Baden, H. Maria, Jouvet, L., Fa, John E., Syed, H., Jongejans, E., Meiri, S., Gaillard, J.M., Chamberlain, S., Wilcken, J., Jones, Owen R., Dahlgren, J. P., Steiner, U. K., Bland, L. M., Gomez-Mestre, Iván, Lebreton, J.D., Vargas, J. G., Flesness, N., Canudas-Romo, V., Salguero-Gómez, R., Byers, O., Berg, T.B., Scheuerlein, A., Devillard, S., Schigel, Dmitry S., Ryder, O.A., Possingham, Hugh P., Baudisch, A., and Vaupel, J. W.

Abstract

Biodiversity loss is a major challenge. Over the past century, the average rate of vertebrate extinction has been about 100-fold higher than the estimated background rate and population declines continue to increase globally. Birth and death rates determine the pace of population increase or decline, thus driving the expansion or extinction of a species. Design of species conservation policies hence depends on demographic data (e.g., for extinction risk assessments or estimation of harvesting quotas). However, an overview of the accessible data, even for better known taxa, is lacking. Here, we present the Demographic Species Knowledge Index, which classifies the available information for 32,144 (97%) of extant described mammals, birds, reptiles, and amphibians. We show that only 1.3% of the tetrapod species have comprehensive information on birth and death rates. We found no demographic measures, not even crude ones such as maximum life span or typical litter/clutch size, for 65% of threatened tetrapods. More field studies are needed; however, some progress can be made by digitalizing existing knowledge, by imputing data from related species with similar life histories, and by using information from captive populations. We show that data from zoos and aquariums in the Species360 network can significantly improve knowledge for an almost eightfold gain. Assessing the landscape of limited demographic knowledge is essential to prioritize ways to fill data gaps. Such information is urgently needed to implement management strategies to conserve at-risk taxa and to discover new unifying concepts and evolutionary relationships across thousands of tetrapod species.

Published
2019

6. Data gaps and opportunities for comparative and conservation biology

Author

Conde, Dalia A., Staerk, J., Colchero, F., da Silva, R., Schöley, J., Baden, H. Maria, Jouvet, L., Fa, John E., Syed, H., Jongejans, E., Meiri, S., Gaillard, J.M., Chamberlain, S., Wilcken, J., Jones, Owen R., Dahlgren, J. P., Steiner, U. K., Bland, L. M., Gomez-Mestre, Iván, Lebreton, J.D., Vargas, J. G., Flesness, N., Canudas-Romo, V., Salguero-Gómez, R., Byers, O., Berg, T.B., Scheuerlein, A., Devillard, S., Schigel, Dmitry S., Ryder, O.A., Possingham, Hugh P., Baudisch, A., Vaupel, J. W., Conde, Dalia A., Staerk, J., Colchero, F., da Silva, R., Schöley, J., Baden, H. Maria, Jouvet, L., Fa, John E., Syed, H., Jongejans, E., Meiri, S., Gaillard, J.M., Chamberlain, S., Wilcken, J., Jones, Owen R., Dahlgren, J. P., Steiner, U. K., Bland, L. M., Gomez-Mestre, Iván, Lebreton, J.D., Vargas, J. G., Flesness, N., Canudas-Romo, V., Salguero-Gómez, R., Byers, O., Berg, T.B., Scheuerlein, A., Devillard, S., Schigel, Dmitry S., Ryder, O.A., Possingham, Hugh P., Baudisch, A., and Vaupel, J. W.

Abstract

Biodiversity loss is a major challenge. Over the past century, the average rate of vertebrate extinction has been about 100-fold higher than the estimated background rate and population declines continue to increase globally. Birth and death rates determine the pace of population increase or decline, thus driving the expansion or extinction of a species. Design of species conservation policies hence depends on demographic data (e.g., for extinction risk assessments or estimation of harvesting quotas). However, an overview of the accessible data, even for better known taxa, is lacking. Here, we present the Demographic Species Knowledge Index, which classifies the available information for 32,144 (97%) of extant described mammals, birds, reptiles, and amphibians. We show that only 1.3% of the tetrapod species have comprehensive information on birth and death rates. We found no demographic measures, not even crude ones such as maximum life span or typical litter/clutch size, for 65% of threatened tetrapods. More field studies are needed; however, some progress can be made by digitalizing existing knowledge, by imputing data from related species with similar life histories, and by using information from captive populations. We show that data from zoos and aquariums in the Species360 network can significantly improve knowledge for an almost eightfold gain. Assessing the landscape of limited demographic knowledge is essential to prioritize ways to fill data gaps. Such information is urgently needed to implement management strategies to conserve at-risk taxa and to discover new unifying concepts and evolutionary relationships across thousands of tetrapod species.

Published
2019

7. Genome 10K: A Proposal to Obtain Whole-Genome Sequence for 10 000 Vertebrate Species

Author

Haussler, D., O'Brien, S. J., Ryder, O. A., Barker, F. K., Clamp, M., Crawford, A. J., Hanner, R., Hanotte, O., Johnson, W. E., McGuire, J. A., Miller, W., Murphy, R. W., Murphy, W. J., Sheldon, F. H., Sinervo, B., Venkatesh, B., Wiley, E. O., Allendorf, F. W., Amato, G., Baker, C. S., Bauer, A., Beja-Pereira, A., Bermingham, E., Bernardi, G., Bonvicino, C. R., Brenner, S., Burke, T., Cracraft, J., Diekhans, M., Edwards, S., Ericson, P. G. P., Estes, J., Fjelsda, J., Flesness, N., Gamble, T., Gaubert, Philippe, Graphodatsky, A. S., Graves, J. A. M., Green, E. D., Green, R. E., Hackett, S., Hebert, P., Helgen, K. M., Joseph, L., Kessing, B., Kingsley, D. M., Lewin, H. A., Luikart, G., Martelli, P., Moreira, M. A. M., Nguyen, N., Orti, G., Pike, B. L., Rawson, D. M., Schuster, S. C., Seuanez, H. N., Shaffer, H. B., Springer, M. S., Stuart, J. M., Sumner, J., Teeling, E., Vrijenhoek, R. C., Ward, R. D., Warren, W. C., Wayne, R., Williams, T. M., Wolfe, N. D., Zhang, Y. P., Graph-Odatsky, A., Felsenfeld, A., and Turner, S.

Subjects
vertebrate biology, ancestral state reconstruction, molecular evolution, species conservation, comparative genomics, G10K
Abstract

The human genome project has been recently complemented by whole-genome assessment sequence of 32 mammals and 24 nonmammalian vertebrate species suitable for comparative genomic analyses. Here we anticipate a precipitous drop in costs and increase in sequencing efficiency, with concomitant development of improved annotation technology and, therefore, propose to create a collection of tissue and DNA specimens for 10 000 vertebrate species specifically designated for whole-genome sequencing in the very near future. For this purpose, we, the Genome 10K Community of Scientists (G10KCOS), will assemble and allocate a biospecimen collection of some 16 203 representative vertebrate species spanning evolutionary diversity across living mammals, birds, nonavian reptiles, amphibians, and fishes (ca. 60 000 living species). In this proposal, we present precise counts for these 16 203 individual species with specimens presently tagged and stipulated for DNA sequencing by the G10KCOS. DNA sequencing has ushered in a new era of investigation in the biological sciences, allowing us to embark for the first time on a truly comprehensive study of vertebrate evolution, the results of which will touch nearly every aspect of vertebrate biological enquiry.

Published
2009

11. Indian Zoo Working Group.

Author

Sharma, B. R., Walker, S., Flesness, N., Lacy, R., Traylor-Holzer, K., Jordan, M., Schmidt, C., Geise, G., Simmons, L., Tonkyn, D., Hofer, H., Rehak, I., and Maddison, N.

Published
2007

12. Data gaps and opportunities for comparative and conservation biology.

Author

Conde DA, Staerk J, Colchero F, da Silva R, Schöley J, Baden HM, Jouvet L, Fa JE, Syed H, Jongejans E, Meiri S, Gaillard JM, Chamberlain S, Wilcken J, Jones OR, Dahlgren JP, Steiner UK, Bland LM, Gomez-Mestre I, Lebreton JD, González Vargas J, Flesness N, Canudas-Romo V, Salguero-Gómez R, Byers O, Berg TB, Scheuerlein A, Devillard S, Schigel DS, Ryder OA, Possingham HP, Baudisch A, and Vaupel JW

Subjects
Animals, Biodiversity, Biological Evolution, Conservation of Natural Resources, Extinction, Biological, Vertebrates physiology
Abstract

Biodiversity loss is a major challenge. Over the past century, the average rate of vertebrate extinction has been about 100-fold higher than the estimated background rate and population declines continue to increase globally. Birth and death rates determine the pace of population increase or decline, thus driving the expansion or extinction of a species. Design of species conservation policies hence depends on demographic data (e.g., for extinction risk assessments or estimation of harvesting quotas). However, an overview of the accessible data, even for better known taxa, is lacking. Here, we present the Demographic Species Knowledge Index, which classifies the available information for 32,144 (97%) of extant described mammals, birds, reptiles, and amphibians. We show that only 1.3% of the tetrapod species have comprehensive information on birth and death rates. We found no demographic measures, not even crude ones such as maximum life span or typical litter/clutch size, for 65% of threatened tetrapods. More field studies are needed; however, some progress can be made by digitalizing existing knowledge, by imputing data from related species with similar life histories, and by using information from captive populations. We show that data from zoos and aquariums in the Species360 network can significantly improve knowledge for an almost eightfold gain. Assessing the landscape of limited demographic knowledge is essential to prioritize ways to fill data gaps. Such information is urgently needed to implement management strategies to conserve at-risk taxa and to discover new unifying concepts and evolutionary relationships across thousands of tetrapod species., Competing Interests: The authors declare no conflict of interest., (Copyright © 2019 the Author(s). Published by PNAS.)

Published
2019
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13. Opportunities and costs for preventing vertebrate extinctions.

Author

Conde DA, Colchero F, Güneralp B, Gusset M, Skolnik B, Parr M, Byers O, Johnson K, Young G, Flesness N, Possingham H, and Fa JE

Subjects
Animals, Biodiversity, Conservation of Natural Resources economics, Costs and Cost Analysis, Ecosystem, Endangered Species, Humans, Extinction, Biological, Vertebrates
Abstract

Despite an increase in policy and management responses to the global biodiversity crisis, implementation of the 20 Aichi Biodiversity Targets still shows insufficient progress [1]. These targets, strategic goals defined by the United Nations Convention on Biological Diversity (CBD), address major causes of biodiversity loss in part by establishing protected areas (Target 11) and preventing species extinctions (Target 12). To achieve this, increased interventions will be required for a large number of sites and species. The Alliance for Zero Extinction (AZE) [2], a consortium of conservation-oriented organisations that aims to protect Critically Endangered and Endangered species restricted to single sites, has identified 920 species of mammals, birds, amphibians, reptiles, conifers and reef-building corals in 588 'trigger' sites [3]. These are arguably the most irreplaceable category of important biodiversity conservation sites. Protected area coverage of AZE sites is a key indicator of progress towards Target 11 [1]. Moreover, effective conservation of AZE sites is essential to achieve Target 12, as the loss of any of these sites would certainly result in the global extinction of at least one species [2]. However, averting human-induced species extinctions within AZE sites requires enhanced planning tools to increase the chances of success [3]. Here, we assess the potential for ensuring the long-term conservation of AZE vertebrate species (157 mammals, 165 birds, 17 reptiles and 502 amphibians) by calculating a conservation opportunity index (COI) for each species. The COI encompasses a set of measurable indicators that quantify the possibility of achieving successful conservation of a species in its natural habitat (COIh) and by establishing insurance populations in zoos (COIc)., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published
2015
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14. Zoos through the lens of the IUCN Red List: a global metapopulation approach to support conservation breeding programs.

Author

Conde DA, Colchero F, Gusset M, Pearce-Kelly P, Byers O, Flesness N, Browne RK, and Jones OR

Subjects
Animals, Animals, Zoo, Female, Male, Breeding, Conservation of Natural Resources methods, Endangered Species
Abstract

Given current extinction trends, the number of species requiring conservation breeding programs (CBPs) is likely to increase dramatically. To inform CBP policies for threatened terrestrial vertebrates, we evaluated the number and representation of threatened vertebrate species on the IUCN Red List held in the ISIS zoo network and estimated the complexity of their management as metapopulations. Our results show that 695 of the 3,955 (23%) terrestrial vertebrate species in ISIS zoos are threatened. Only two of the 59 taxonomic orders show a higher proportion of threatened species in ISIS zoos than would be expected if species were selected at random. In addition, for most taxa, the management of a zoo metapopulation of more than 250 individuals will require the coordination of a cluster of 11 to 24 ISIS zoos within a radius of 2,000 km. Thus, in the zoo network, the representation of species that may require CBPs is currently low and the spatial distribution of these zoo populations makes management difficult. Although the zoo community may have the will and the logistical potential to contribute to conservation actions, including CBPs, to do so will require greater collaboration between zoos and other institutions, alongside the development of international agreements that facilitate cross-border movement of zoo animals. To maximize the effectiveness of integrated conservation actions that include CBPs, it is fundamental that the non-zoo conservation community acknowledges and integrates the expertise and facilities of zoos where it can be helpful.

Published
2013
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15. A comparative assessment of univariate longevity measures using zoological animal records.

Author

Moorad JA, Promislow DE, Flesness N, and Miller RA

Subjects
Analysis of Variance, Animals, Body Size, Female, Humans, Male, Population Density, Population Dynamics, Species Specificity, Statistics, Nonparametric, Aging, Geriatrics statistics & numerical data, Longevity, Models, Statistical
Abstract

Comparative biogerontology evaluates cellular, molecular, physiological, and genomic properties that distinguish short-lived from long-lived species. These studies typically use maximum reported lifespan (MRLS) as the index with which to compare traits, but there is a general awareness that MRLS is not ideal owing to statistical shortcomings that include bias resulting from small sample sizes. Nevertheless, MRLS has enough species-specific information to show strong associations with many other species-specific traits, such as body mass, stress resistance, and codon usage. The major goal of this study was to see if we could identify surrogate measures with better statistical properties than MRLS but that still capture inter-species differences in extreme lifespan. Using zoological records of 181 bird and mammal species, we evaluated 16 univariate metrics of aging and longevity, including nonparametric quantile-based measures and parameters derived from demographic models of aging, for three desirable statistical properties. We wished to identify those measures that: (i) correlated well with MRLS when the biasing effects of sample size were removed; (ii) correlated weakly with population size; and (iii) were highly robust to the effects of sampling error. Nonparametric univariate descriptors of the distribution of lifespans clearly outperformed the measures derived from demographic analyses. Mean adult lifespan and quantile-based measures, and in particular the 90th quantile of longevity, performed particularly well, demonstrating far less sensitivity to small sample size effects than MRLS while preserving much of the information contained in the maximum lifespan measure. These measures should take the place of MRLS in comparative studies of lifespan., (© 2012 The Authors. Aging Cell © 2012 Blackwell Publishing Ltd/Anatomical Society of Great Britain and Ireland.)

Published
2012
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