The power to detect regional declines in common bird populations using continental monitoring data

Baker, D. James; Clarke, Rohan H.; McGeoch, Mélodie A.

doi:10.1002/eap.1918

Cited by 7 publications

(8 citation statements)

References 68 publications

(148 reference statements)

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“…We found that sampling effort strongly affected the ability to detect change in a timely manner, with the lowest level of sampling unable to detect change within the time tested, whereas increasing effort could potentially detect change within 13 yr for our example species. This agrees with other research showing that insufficient within-site sampling can have a large impact on the power to detect trends (e.g., Perkins et al 2016, Barker et al 2019. However, we found that increases in sampling effort in the study area with the lowest starting densities (Montara, and the reference site in particular) achieved only marginal increases in power over time, despite sites at Montara being smaller and thus the percentage area sampled with an equivalent number of transects being almost four times that of the largest sites at Bodega Head.…”

Section: Level Of Within-site Samplingsupporting

confidence: 92%

Quantifying the statistical power of monitoring programs for marine protected areas

Perkins

Prall

Chakraborty

et al. 2020

Ecological Applications

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Marine Protected Areas (MPAs) are increasingly established globally as a spatial management tool to aid in conservation and fisheries management objectives. Assessing whether MPAs are having the desired effects on populations requires effective monitoring programs. A cornerstone of an effective monitoring program is an assessment of the statistical power of sampling designs to detect changes when they occur. We present a novel approach to power assessment that combines spatial point process models, integral projection models (IPMs) and sampling simulations to assess the power of different sample designs across a network of MPAs. We focus on the use of remotely operated vehicle (ROV) video cameras as the sampling method, though the results could be extended to other sampling methods. We use empirical data from baseline surveys of an example indicator fish species across three MPAs in California, USA as a case study. Spatial models simulated time series of spatial distributions across sites that accounted for the effects of environmental covariates, while IPMs simulated expected trends over time in abundances and sizes of fish. We tested the power of different levels of sampling effort (i.e., the number of 500-m ROV transects) and temporal replication (every 1-3 yr) to detect expected post-MPA changes in fish abundance and biomass. We found that changes in biomass are detectable earlier than changes in abundance. We also found that detectability of MPA effects was higher in sites with higher initial densities. Increasing the sampling effort had a greater effect than increasing sampling frequency on the time taken to achieve high power. High power was best achieved by combining data from multiple sites. Our approach provides a powerful tool to explore the interaction between sampling effort, spatial distributions, population dynamics, and metrics for detecting change in previously fished populations.

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Section: Level Of Within-site Samplingsupporting

confidence: 92%

Quantifying the statistical power of monitoring programs for marine protected areas

Perkins

Prall

Chakraborty

et al. 2020

Ecological Applications

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“…The spatially and seasonally explicit trend estimates also provide new information about interannual changes in Wood Thrush population size. The spatial resolution of the trend estimates presented here is relatively high compared to other studies with similarly broad spatial extents (Sauer et al 2017, Baker et al 2019, Meehan et al 2019, Rushing et al 2019. Both breeding and non-breeding trend maps show significant spatial variation in the pattern of declines, with the steepest declines within the 5% FDR regions (Figs.…”

Section: Discussionmentioning

confidence: 55%

“…, Baker et al. , and Meehan et al. ) across broad spatial extents have turned to the use of less structured survey data collected by citizen scientists.…”

Section: Introductionmentioning

confidence: 99%

“…Recent efforts to estimate species' distributions (K ery et al 2010), abundance (Johnston et al 2015), and trends (Horns et al 2018, Baker et al 2019, and Meehan et al 2019) across broad spatial extents have turned to the use of less structured survey data collected by citizen scientists. Citizen science projects have been very successful at collecting species observation data with high spatial and temporal resolution across broad extents throughout the year (Dickinson et al 2010).…”

Section: Introductionmentioning

confidence: 99%

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Modeling avian full annual cycle distribution and population trends with citizen science data

Fink

Auer

Johnston

et al. 2020

Ecological Applications

148

176

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Information on species’ distributions, abundances, and how they change over time is central to the study of the ecology and conservation of animal populations. This information is challenging to obtain at landscape scales across range‐wide extents for two main reasons. First, landscape‐scale processes that affect populations vary throughout the year and across species’ ranges, requiring high‐resolution, year‐round data across broad, sometimes hemispheric, spatial extents. Second, while citizen science projects can collect data at these resolutions and extents, using these data requires appropriate analysis to address known sources of bias. Here, we present an analytical framework to address these challenges and generate year‐round, range‐wide distributional information using citizen science data. To illustrate this approach, we apply the framework to Wood Thrush (Hylocichla mustelina), a long‐distance Neotropical migrant and species of conservation concern, using data from the citizen science project eBird. We estimate occurrence and abundance across a range of spatial scales throughout the annual cycle. Additionally, we generate intra‐annual estimates of the range, intra‐annual estimates of the associations between species and characteristics of the landscape, and interannual trends in abundance for breeding and non‐breeding seasons. The range‐wide population trajectories for Wood Thrush show a close correspondence between breeding and non‐breeding seasons with steep declines between 2010 and 2013 followed by shallower rates of decline from 2013 to 2016. The breeding season range‐wide population trajectory based on the independently collected and analyzed North American Breeding Bird Survey data also shows this pattern. The information provided here fills important knowledge gaps for Wood Thrush, especially during the less studied migration and non‐breeding periods. More generally, the modeling framework presented here can be used to accurately capture landscape scale intra‐ and interannual distributional dynamics for broadly distributed, highly mobile species.

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“…These have been used on terrestrial as well as water birds, including waterfowls and waders. Most of the long-term studies have been conducted on North American and European birds, as a systematic census of birds is available from these regions (Baker et al, 2019;Freeman et al, 2007, Kamp et al, 2021Sauer et al, 2017;Shipley et al, 2020;Weimerskirch 2018). Painted Stork breeding population is well monitored at KNP and hence can be used to model the long-term temporal trend and effect of water availability.…”

mentioning

confidence: 99%

Performance of imputation-based models in predicting breeding population trend of a near-threatened bird in changing water regime: A 36-year long-term case study of Painted Stork, Mycteria leucocephala

Dwevedi

Deo

Sethy

et al. 2021

JANS

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The breeding population of birds are dynamic and are affected by multiple factors including climate and local environmental conditions. However, often to understand such relations requires long-term data modelling. Such long-term population data is either lacking or has data gaps. This study demonstrates the use of Multiple Imputation Chained Equation (MICE) to overcome the problem of missing data population census. This is also the first comprehensive study, modelling the 36-year (1980-2015) long-term breeding population data of a near-threatened bird, Painted Stork, from Keoladeo National Park, India. It tests the effect of local water availability, i.e., water released to the park, and regional rainfall, i.e, climatic condition, on the breeding population using Generalised Additive Model (GAM). Both imputation and observed data series-based GAM models identified the local water availability as the most important factor influencing the breeding population of Painted Stork. More than 80% population decline was observed, despite a slight increase in the rainfall at regional scale, suggesting local hydrological conditions are limiting to the breeding population and not the climate. According to the visual assessment of partial plot of GAM, minimum 200-300 million cubic feet of water is needed each nesting season to ensure sustenance of breeding population. Post-1989, the breeding population was unable to match the long-term mean (~726) except in 1992, 1995, and 1996. The maximum decline was observed between 2000-2009, a decade of frequent droughts. The breeding population was stable until the end of this study, but it was far below the long term mean.

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The power to detect regional declines in common bird populations using continental monitoring data

Cited by 7 publications

References 68 publications

Quantifying the statistical power of monitoring programs for marine protected areas

Quantifying the statistical power of monitoring programs for marine protected areas

Modeling avian full annual cycle distribution and population trends with citizen science data

Performance of imputation-based models in predicting breeding population trend of a near-threatened bird in changing water regime: A 36-year long-term case study of Painted Stork, Mycteria leucocephala

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