A monitoring framework for assessing threats to nonbreeding shorebirds on the Pacific Coast of the Americas

Many shorebirds (Order: Charadriiformes; Family: Charadriidae, Recurvirostridae, Scolopacidae, Haematopodidae, Jacanidae) are highly migratory, traversing thousands of kilometers between high latitude breeding and low latitude nonbreeding sites. In doing so, they are dependent on networks of coastal...

Full description

Bibliographic Details
Main Authors: Matthew E. Reiter, Eduardo Palacios, Diana Eusse-Gonzalez, Richard Johnston González, Pete Davidson, David W. Bradley, Rob Clay, Khara M. Strum, James Chu, Blake A. Barbaree, Catherine M. Hickey, David B. Lank, Mark Drever, Ronald C. Ydenberg, Robert Butler
Format: Article in Journal/Newspaper
Language:English
Published: Resilience Alliance 2020
Subjects:
conservation
habitat associations
hypothesized threats
monitoring network
pacific americas flyway
shorebirds
Plant culture
SB1-1110
Environmental sciences
GE1-350
Plant ecology
QK900-989
Pacific
High Latitude Breeding
Online Access:https://doaj.org/article/4a7995d1c130433abc47ba14787c887a
Description
Summary:Many shorebirds (Order: Charadriiformes; Family: Charadriidae, Recurvirostridae, Scolopacidae, Haematopodidae, Jacanidae) are highly migratory, traversing thousands of kilometers between high latitude breeding and low latitude nonbreeding sites. In doing so, they are dependent on networks of coastal and interior wetland ecosystems. To aid in the effective conservation and management of their populations, and to assess the impact of threats facing shorebirds, standardized data on shorebird abundance are needed from multiple sites representing a gradient of conditions across the hemisphere. Such data would provide insight on whether fluctuations at one location represent real changes in abundance because of some localized threat, or whether other factors acting across broader scales such as the redistribution of predators, are responsible. We designed the Migratory Shorebird Project (MSP), now implemented in 11 countries along the Pacific Coast of the Americas, to characterize spatial and temporal variation in shorebird abundance, to understand which factors (habitat, threats) most influence their populations across the flyway, and to increase capacity for integrated research, monitoring, and conservation. We used bird inventory data from historical surveys and spatial data on habitat distribution along with a set of hypotheses about important threats to guide the design of the project and to identify data requirements to test hypotheses. We counted birds one time per year at 84 nonbreeding sites (~1400 sampling units) between 15 November and 15 February, when shorebirds were relatively stationary. In each of the first three annual counts from 2013/14 to 2015/16, the Migratory Shorebird Project counted ~1M shorebirds representing 44 species, including five species for which > 20% of the estimated biogeographic population was recorded annually, and nine additional species with > 5% recorded annually. The magnitude of variability in estimates of shorebird abundance was inversely correlated with survey effort ...

Similar Items