Rachel Fewster | Academic Influence

Rachel Fewster's AcademicInfluence.com Rankings

Rachel Fewster

Mathematics

#8291

World Rank

#11266

Historical Rank

Statistics

#1235

World Rank

#1347

Historical Rank

mathematics Degrees

Rachel Fewster

Biology

#15625

World Rank

#19647

Historical Rank

Ecology

#1259

World Rank

#1371

Historical Rank

biology Degrees

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Mathematics
Biology

Rachel Fewster's Degrees

PhD Statistics University of Auckland
Bachelors Mathematics University of Auckland

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Why Is Rachel Fewster Influential?

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According to Wikipedia, Rachel M. Fewster is a British and New Zealand environmental statistician and statistical ecologist known for her work on wildlife population size, population genetics, and Benford's law, and for the development of the CatchIT citizen science project for monitoring invasive species. She is a professor of statistics in New Zealand at the University of Auckland.

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Rachel Fewster's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Trends in the abundance of farmland birds: a quantitative comparison of smoothed Common Birds Census indices (1998) (492)
ANALYSIS OF POPULATION TRENDS FOR FARMLAND BIRDS USING GENERALIZED ADDITIVE MODELS (2000) (425)
Monitoring change in biodiversity through composite indices (2005) (369)
Estimating population size by spatially explicit capture–recapture (2013) (224)
Mark-Recapture Models for Line Transect Surveys (1998) (160)
Estimating the Encounter Rate Variance in Distance Sampling (2009) (159)
Empty forest or empty rivers? A century of commercial hunting in Amazonia (2016) (129)
A Simple Explanation of Benford's Law (2009) (125)
Survivors or reinvaders? Using genetic assignment to identify invasive pests following eradication (2010) (65)
Accounting for female reproductive cycles in a superpopulation capture-recapture framework. (2013) (50)
Measurement, prediction and risk analysis for Web applications (2001) (48)
The influence of animal mobility on the assumption of uniform distances in aerial line-transect surveys (2008) (46)
Statistical ecology comes of age (2014) (43)
Early colonisation population structure of a Norway rat island invasion (2009) (39)
Abundance of the New Zealand subantarctic southern right whale population estimated from photo-identification and genotype mark-recapture (2011) (39)
Spatial Capture–Recapture Models (2016) (37)
Probability Modeling and Thinking: What Can We Learn from Practice?. (2016) (34)
Using genetic techniques to quantify reinvasion, survival and in situ breeding rates during control operations (2013) (34)
Line Transect Sampling in Small and Large Regions (2005) (34)
A comparison of mark–recapture distance-sampling methods applied to aerial surveys of eastern grey kangaroos (2008) (28)
Variance Estimation for Systematic Designs in Spatial Surveys (2011) (28)
Inference on population size in binomial detectability models (2009) (27)
Visualizations for genetic assignment analyses using the saddlepoint approximation method (2017) (23)
Similarity Indices for Spatia I Ecological Data (2001) (18)
Where did the rats of Big South Cape Island come from (2016) (18)
Cubic Splines for Estimating the Distribution of Residence Time Using Individual Resightings Data (2009) (18)
Evaluation of the Linkage Disequilibrium Method for Estimating Effective Population Size (2009) (17)
DNA profiling – a management tool for rat eradication (2010) (16)
Similarity indices for spatial ecological data. (2001) (16)
Multiple paternity in wild populations of invasive Rattus species. (2010) (15)
Portfolio management method for deadline planning (2003) (14)
First Direct Evidence for Natal Wintering Ground Fidelity and Estimate of Juvenile Survival in the New Zealand Southern Right Whale Eubalaena australis (2016) (14)
Trace-Contrast Models for Capture–Recapture Without Capture Histories (2016) (13)
Accounting for uncertainty in duplicate identification and group size judgements in mark–recapture distance sampling (2017) (12)
Cluster capture‐recapture to account for identification uncertainty on aerial surveys of animal populations (2019) (11)
Model-based approaches to deal with detectability: a comment on Hutto (2016a). (2017) (11)
Genetic Diversity and Connectivity of Southern Right Whales (Eubalaena australis) Found in the Brazil and Chile–Peru Wintering Grounds and the South Georgia (Islas Georgias del Sur) Feeding Ground (2020) (10)
Phylogeography of Invasive Rats in New Zealand (2019) (10)
Long‐term monitoring of wildlife populations for protected area management in Southeast Asia (2021) (9)
Circadian and circatidal clocks control the mechanism of semilunar foraging behaviour (2017) (9)
Maximum likelihood estimation for model Mt,α for capture–recapture data with misidentification (2014) (9)
A Spatiotemporal Stochastic Process Model for Species Spread (2003) (8)
Detecting Invisible Migrants: An Application of Genetic Methods to Estimate Migration Rates (2009) (8)
I smell a rat! Estimating effective sweep width for searches using wildlife-detector dogs (2018) (7)
Testing the feasibility of wireless sensor networks and the use of radio signal strength indicator to track the movements of wild animals (2018) (6)
Assessing the design and power of capture-recapture studies to estimate demographic parameters for the Endangered Oceania humpback whale population (2015) (6)
A latent capture history model for digital aerial surveys (2020) (6)
The global contribution of invasive vertebrate eradication as a key island restoration tool (2022) (6)
Island invasion and reinvasion: Informing invasive species management with genetic measures of connectivity (2020) (6)
Information on parameters of interest decreases under transformations (2013) (6)
Some applications of genetics in statistical ecology (2017) (5)
Assessing the potential of acoustic indices for protected area monitoring in the Serra do Cipó National Park, Brazil (2021) (5)
Demographic trends and reproductive patterns in the northern hairy-nosed wombat (Lasiorhinus krefftii) at Epping Forest National Park (Scientific), central Queensland (2020) (4)
Fast likelihood‐based inference for latent count models using the saddlepoint approximation (2019) (4)
Spatial correlation structures for detections of individuals in spatial capture–recapture models (2021) (3)
Acoustic region workflow for efficient comparison of soundscapes under different invasive mammals' management regimes (2022) (3)
Genogeographic clustering to identify cross‐species concordance of spatial genetic patterns (2022) (3)
Estimating Animal Abundance: Closed Populations (2004) (2)
Running head : Model-based approaches to detectability Model-based approaches to deal with detectability : a comment on Hutto (2017) (2)
Geographic concordance of genetic barriers in New Zealand coastal marine species (2021) (2)
data file #2 (2014) (1)
TEACHING STATISTICS TO REAL PEOPLE : ADVENTURES IN SOCIAL STOCHASTICS (2014) (1)
Mouse management on Ōtamahua/Quail Island—lessons learned (2018) (1)
Mathematics and Statistics for Science (2022) (1)
Wildlife Population Assessment: Changing Priorities Driven by Technological Advances (2023) (1)
Stationary distribution of the linkage disequilibrium coefficient r2. (2019) (0)
Population estimates of photo-identified individuals using a modified POPAN model reveal that Raja Ampat’s reef manta rays are thriving (2022) (0)
The global contribution of invasive vertebrate eradication as a key island restoration tool (2022) (0)
Revised assessment for Oceania humpbacks: survey design considerations and power analysis (2013) (0)
Visualizing Population Genetics (2015) (0)
Circadian and circatidal clocks control the mechanism of semilunar foraging behaviour (2017) (0)
data file #1 (2014) (0)
Ecological Models and Data in R by BOLKER, B. M. (2009) (0)
Cumulative propagule pressure exerted by escaped pet parrots (2023) (0)
Issue Information ‐ Ed Board (2017) (0)
Web-based Supplementary Materials for Maximum likelihood estimation for model M t , α for capture-recapture data with misidentication , by (2014) (0)
Some applications of genetics in statistical ecology (2016) (0)

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Other Resources About Rachel Fewster

en.wikipedia.org

What Schools Are Affiliated With Rachel Fewster?

Rachel Fewster is affiliated with the following schools: