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Name: Converse Quantitative Conservation Lab - University of Washington

Type: Organization

Bio: This is a repository for publications associated with Sarah Converse's Quantitative Conservation Lab at the University of Washington

Twitter: conversesj

Location: United States of America

Converse Quantitative Conservation Lab - University of Washington's Projects

amburgey_etal_2021_neobiota icon amburgey_etal_2021_neobiota

Amburgey SM, AA Yackel Adams, B Gardner, B Lardner, AJ Knox, and SJ Converse. 2021. Tools for increasing visual encounter probabilities for invasive species removal: a case study of brown treesnakes. Neobiota 70:107-122.

barzen_etal_2018_thecondor icon barzen_etal_2018_thecondor

Barzen JA, SJ Converse, PH Adler, A Lacy, E Gray, and A Gossens. 2018. Examination of multiple working hypotheses to address reproductive failure in reintroduced Whooping Cranes. The Condor 120:632-649

brusa_et_al icon brusa_et_al

Contains data and code for in-review publication on a method for estimating components of observation error in aerial surveys of marine birds

doll_etal_2022_journalofinsectconservation icon doll_etal_2022_journalofinsectconservation

Doll CF, SJ Converse, CB Edwards, and CB Schultz. 2022. Using structured decision making to guide habitat restoration for butterflies: a case study of Oregon silverspots. Journal of Insect Conservation 26:219-230.

edwards_etal_2021_animalconservation icon edwards_etal_2021_animalconservation

Edwards HA, SJ Converse, KD Swan, and A Moehrenschlager. 2022. Trading off hatching success and cost in the captive breeding of Whooping Cranes. Animal Conservation 25:101-109.

hostetter_etal_2021_plosone icon hostetter_etal_2021_plosone

Hostetter NJ, NJ Lunn, ES Richardson, EV Regehr, and SJ Converse. Age-structured Jolly-Seber model expands inference and improves parameter estimation from capture-recapture data. PLOS One 16:e0252748

lloyd_etal_2019_animalconservation icon lloyd_etal_2019_animalconservation

Lloyd, N. A., N. J. Hostetter, C. L. Jackson, S. J. Converse, and A. Moehrenschlager. 2019. Optimizing release strategies: a stepping-stone approach to reintroduction. Animal Conservation 22:105–115.

petracca_etal_2023_biologicalconservation icon petracca_etal_2023_biologicalconservation

Petracca LP, B Gardner, BT Maletzke, and SJ Converse. 2023. Merging integrated population models and individual-based models to project population dynamics of recolonizing species. Biological Conservation.

regehr_etal_2018_scientificreports icon regehr_etal_2018_scientificreports

Regehr, E. V., N. J. Hostetter, R. R. Wilson, K. D. Rode, M. S. Martin, and S. J. Converse. 2018. Integrated Population Modeling Provides the First Empirical Estimates of Vital Rates and Abundance for Polar Bears in the Chukchi Sea. Scientific Reports 8:16780.

royle_and_converse_2014_mee icon royle_and_converse_2014_mee

Royle J.A. and S.J. Converse. 2014. Hierarchical spatial capture-recapture models: modeling population density in stratified populations. Methods in Ecology and Evolution 5:37-43.

sipe_etal_2023_ecosphere icon sipe_etal_2023_ecosphere

Sipe H, IN Keren, and SJ Converse. 2023. Integrating community science and agency-collected monitoring data to expand monitoring capacity at large spatial scales. Ecology and Evolution.

sorel_etal_2021_journalappliedecology icon sorel_etal_2021_journalappliedecology

Sorel MH, RW Zabel, DS Johnson, AM Wargo Rub, and SJ Converse. 2021. Estimating population-specific predation effects on Chinook salmon via data integration. Journal of Applied Ecology 58:372-381.

sorel_etal_2023_cjfas icon sorel_etal_2023_cjfas

Sorel MH, JC Jorgensen, RW Zabel, MD Scheuerell, AR Murdoch, CM Kamphaus, SJ Converse. 2023. Incorporating life history diversity in an integrated population model to inform viability analysis. Canadian Journal of Fisheries and Aquatic Sciences.

sorel_etal_2023_ecology-evolution icon sorel_etal_2023_ecology-evolution

Sorel MH, AR Murdoch, RW Zabel, CM Kamphaus, ER Buhle, MD Scheuerell, and SJ Converse. 2023. Effects of population density and environmental conditions on life-history prevalence in a migratory fish. Ecology and Evolution.

sorel_etal_2023_ecosphere icon sorel_etal_2023_ecosphere

Sorel MH, AR Murdoch, RW Zabel, JC Jorgensen, CM Kamphaus, and SJ Converse. Juvenile life history diversity is associated with lifetime individual heterogeneity in a migratory fish. Ecosphere 14:e4366.

sorel_etal_mgmt_modeling icon sorel_etal_mgmt_modeling

Code and data associated with manuscript on modeling Wenatchee spring Chinook salmon population responses to habitat restoration and hatchery management strategies

todd-zaragoza_etal_2023_marineornithology icon todd-zaragoza_etal_2023_marineornithology

Todd Zaragoza MI, AJ DuVall, JA Howard, DM Mazurkiewicz, and SJ Converse. 2023. Laying sequence and oceanographic factors affect egg size in Scripps's Murrelets (Synthliboramphus scrippsi) at Santa Barbara Island. Marine Ornithology 51:1-9.

warlick_etal_2022_ecosphere icon warlick_etal_2022_ecosphere

Warlick AJ, DS Johnson, TS Gelatt, and SJ Converse. 2022. Environmental drivers of demography and potential factors limiting the recovery of an endangered marine top predator. Ecosphere 2022: e4325.

warlick_etal_2023_animalconservation icon warlick_etal_2023_animalconservation

Warlick AJ, GK Himes Boor, TL McGuire, KEW Shelden, EK Jacobson, C Boyd, PR Wade, AE Punt, SJ Converse. 2023. Demographic and environmental drivers of population dynamics and viability in an endangered top predator using an integrated model. Animal Conservation.

warlick_etal_2023_esr icon warlick_etal_2023_esr

Contains data and code to reproduce publication analyses examining environmental drivers and viability of Steller sea lions using an integrated population model

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