Review of capture-recapture methods applicable to noninvasive genetic sampling.
about
Genotyping faecal samples of Bengal tiger Panthera tigris tigris for population estimation: a pilot studyPopulation genetic insights into the social organization of Guinea baboons (Papio papio): Evidence for female-biased dispersalGenetic censusing identifies an unexpectedly sizeable population of an endangered large mammal in a fragmented forest landscape.Genome-wide survey and analysis of microsatellites in giant panda (Ailuropoda melanoleuca), with a focus on the applications of a novel microsatellite marker systemGenetic fingerprinting proves cross-correlated automatic photo-identification of individuals as highly efficient in large capture-mark-recapture studiesUsing pedigree reconstruction to estimate population size: genotypes are more than individually unique marksNon-invasive genetic monitoring of wild central chimpanzeesA panel of microsatellites to individually identify leopards and its application to leopard monitoring in human dominated landscapesValidation of microsatellite multiplexes for parentage analysis and species discrimination in two hybridizing species of coral reef fish (Plectropomus spp., Serranidae).Inferring recent historic abundance from current genetic diversity.An invertebrate stomach's view on vertebrate ecology: certain invertebrates could be used as "vertebrate samplers" and deliver DNA-based information on many aspects of vertebrate ecology.Where have all the tadpoles gone? Individual genetic tracking of amphibian larvae until adulthood.Non-Invasive Genetic Mark-Recapture as a Means to Study Population Sizes and Marking Behaviour of the Elusive Eurasian Otter (Lutra lutra).Estimating Population Size for Capercaillie (Tetrao urogallus L.) with Spatial Capture-Recapture Models Based on Genotypes from One Field Sample.multimark: an R package for analysis of capture-recapture data consisting of multiple "noninvasive" marks.Effects of Photo and Genotype-Based Misidentification Error on Estimates of Survival, Detection and State Transition using Multistate Survival ModelsGrizzly Bear Noninvasive Genetic Tagging Surveys: Estimating the Magnitude of Missed DetectionsA Spatio-Temporally Explicit Random Encounter Model for Large-Scale Population SurveysOptimization of Scat Detection Methods for a Social Ungulate, the Wild Pig, and Experimental Evaluation of Factors Affecting Detection of Scat.Elephant behaviour and conservation: social relationships, the effects of poaching, and genetic tools for management.Effects of scale of movement, detection probability, and true population density on common methods of estimating population density.A method for estimating population sex ratio for sage-grouse using noninvasive genetic samples.Genetic sampling for estimating density of common speciesEvaluating the interaction of faecal pellet deposition rates and DNA degradation rates to optimize sampling design for DNA-based mark-recapture analysis of Sonoran pronghorn.Linking noninvasive genetic sampling and traditional monitoring to aid management of a trans-border carnivore population.Closed-population capture-recapture modeling of samples drawn one at a time.Estimating Sonoran pronghorn abundance and survival with fecal DNA and capture-recapture methods.Balancing sample accumulation and DNA degradation rates to optimize noninvasive genetic sampling of sympatric carnivores.Estimating the number of whales entering trade using DNA profiling and capture-recapture analysis of market products.Individual genetic tagging for teleosts: an empirical validation and a guideline for ecologists.The genetic mark-recapture likelihood function of capwire.Incorporating genotype uncertainty into mark-recapture-type models for estimating abundance using DNA samples.Genetic and genomic monitoring with minimally invasive sampling methodsWhy are caribou declining in the oil sands?Importance and future of individual markers for the ecosystem approach to fisheriesA framework for inference about carnivore density from unstructured spatial sampling of scat using detector dogsDensity estimation in a wolverine population using spatial capture-recapture modelsIdentification and Density Estimation of American Martens (Martes americana) Using a Novel Camera-Trap MethodGrizzly bears without borders: Spatially explicit capture-recapture in southwestern AlbertaA Demo-Genetic Analysis of a Small Reintroduced Carnivore Population: The Otter (Lutra lutra) in The Netherlands
P2860
Q21283787-4D8ABD57-0373-4454-9661-23EC0131E1C1Q28607171-E1C9927A-7D59-490A-B355-5DF45696B92CQ28608458-2F608480-E6A6-4035-9735-B2696C0439D3Q28649620-91A97CD0-7644-43FF-9429-C5F0434D46ABQ28652101-4E376139-EEF4-45EB-BF02-F7DF13F860C1Q28681589-01BAE300-4F4F-4642-9895-0ACA084780ACQ28741923-09C47B7A-184F-40A2-842D-2968990FD737Q28749403-3497C02A-E901-4777-AC22-C5A333941428Q34361560-1F97C75B-3E41-46A2-A879-E748D4B0D621Q34488629-95A3B5AE-D5C5-47D7-8350-2DEFB05CE368Q34892078-1DE816E7-5EBC-4740-BB01-4984D060B7D4Q35471714-EBA50A6C-9CD6-4277-83B9-36DF0522F97EQ35606926-5E4A29A9-F4F3-4D1B-8BCD-B68F30421160Q35667625-5365C3D9-0A08-42C0-BAF5-0EA901CD349BQ35861901-F8FF6266-BA2A-4EAB-924F-3B1175E8628AQ35889888-ED676DA2-073A-4D6F-B51F-6D6B7B4CAAABQ36125204-E2718825-6CB8-466C-9132-2EE6744BFCE8Q36128196-B482225B-AA01-4F4F-BC81-92AE96E34780Q36935748-4D89FA2F-B022-493A-85D5-7F340C4F7EABQ37924326-E03FB686-5E88-458E-A741-E326F914613FQ38607625-28989777-E98F-4C25-8D98-22BA87875BB7Q39479533-B8A16610-D23B-4695-84D2-8DA694932F31Q41546763-859DC9B6-2FB8-4C6E-912F-AD1DDDDE8C2AQ41672551-16805A4B-06BC-4A32-8234-A4A9B471DF0EQ43714877-5A5FC69F-FE3B-4591-950C-935EB787A9C4Q46421295-7FB1B8FE-F3B5-464F-875C-5F1DD8519257Q46589588-2DC76EFE-61B0-470D-B451-B3E8F8B4B829Q46806015-6518B968-547F-4336-8757-2A60450E6ABAQ48691857-E7C6003B-0A21-484B-8084-BD8F9D6A6979Q51575066-F17403CF-6BC2-4DFE-8915-CCF1B255D3C7Q51701666-97B3177C-5043-4697-A983-3A1996A23962Q51853763-36013273-3EC1-4D69-A26C-B2C179C4B092Q57179242-ECEFA044-BE6D-4C8D-86E7-FF0E3BA2A57AQ57190696-2B193472-9C2D-474B-9A30-A2A5990B2B6DQ57236676-D916E5AA-034E-4F31-BF83-9DBD7B16308CQ57878014-60493DCB-5BCA-4D80-879F-8F9F82E85D03Q57878056-EF20A891-0352-4A91-8CBF-01C35D3EE86BQ58386083-E769FB83-24E9-4781-843B-F04740B9FFEBQ58389787-7420E474-8FA7-41E8-849D-BEEE3D966B34Q58686956-01D63C2D-A349-4BAF-BB53-80B81F7425F5
P2860
Review of capture-recapture methods applicable to noninvasive genetic sampling.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Review of capture-recapture methods applicable to noninvasive genetic sampling.
@ast
Review of capture-recapture methods applicable to noninvasive genetic sampling.
@en
type
label
Review of capture-recapture methods applicable to noninvasive genetic sampling.
@ast
Review of capture-recapture methods applicable to noninvasive genetic sampling.
@en
prefLabel
Review of capture-recapture methods applicable to noninvasive genetic sampling.
@ast
Review of capture-recapture methods applicable to noninvasive genetic sampling.
@en
P2860
P1433
P1476
Review of capture-recapture methods applicable to noninvasive genetic sampling.
@en
P2093
Kenneth P Burnham
Paul M Lukacs
P2860
P304
P356
10.1111/J.1365-294X.2005.02717.X
P577
2005-11-01T00:00:00Z