Accession Number : AD1052360

Title :   Endangered Butterflies as a Model System for Managing Source Sink Dynamics on Department of Defense Lands

Descriptive Note : Technical Report,31 Jul 2017,30 Jan 2018

Corporate Author : TUFTS UNIV BOSTON MA BOSTON United States

Personal Author(s) : Crone,Elizabeth ; Damiani,Christine ; Haddad,Nick ; Hudgens,Brian ; Morris,William F ; Schultz,Cheryl

Full Text :

Report Date : 30 Nov 2017

Pagination or Media Count : 299

Abstract : Background and Objective Background: Department of Defense (DoD) lands provide the best available habitat for numerous threatened, endangered and at-risk species (TER-S), and many of these species are currently managed on military lands by controlled disturbances (e.g. fires) or by de novo restoration of habitat. However, these management strategies run the risk of converting sources (where births exceed deaths) into sinks (where deaths exceed births) or of creating ecological traps - low-quality but attractive restored habitat that bleeds animals from nearby sources, threatening metapopulation viability. In addition, disturbance during and successional changes in habitat quality following management or restoration may lead local habitat patches to cycle from sink to source status and back.Objective: Through a combination of field studies and state-of-the-art quantitative models, we used three species of endangered butterflies as a model system to rigorously investigate the source-sink dynamics of species being managed on military lands. Butterflies have numerous advantages as models for source-sink dynamics, including rapid generation times and relatively limited dispersal, but they are subject to the same processes that determine source-sink dynamics of longer-lived, more vagile taxa.1.2 Technical Approach: For two of our focal species, we used previous restorations and ongoing management to study temporal source-sink dynamics. For the third, initiated new restoration, allowing us to examine management effects in a controlled experiment. We measured demography and movement at all phases of the disturbance cycle following management or restoration. We used these data to parameterize detailed spatially explicit individual-based simulation models (SEIBMs) linked to real landscapes with dynamic changes in habitat quality due to management. We also validated our general approach by comparing patterns in our focal species to general, cross-taxa, patterns.

Descriptors :   land use , department of defense , habitats , endangered species , lepidopterans , ecology , models

Subject Categories : Biology

Distribution Statement : APPROVED FOR PUBLIC RELEASE