David A. Haukos Gene Albanese 2017 <div id="ASec1" class="AbstractSection"><p class="Heading"><strong>Context</strong></p><p id="Par1" class="Para">Playa wetlands are the primary habitat for numerous wetland-dependent species in the Southern Great Plains of North America. Plant and wildlife populations that inhabit these wetlands are reciprocally linked through the dispersal of individuals, propagules and ultimately genes among local populations.</p></div><div id="ASec2" class="AbstractSection"><p class="Heading"><strong>Objective</strong></p><p id="Par2" class="Para">To develop and implement a framework using network models for conceptualizing, representing and analyzing potential biological flows among 48,981 spatially discrete playa wetlands in the Southern Great Plains.</p></div><div id="ASec3" class="AbstractSection"><p class="Heading"><strong>Methods</strong></p><p id="Par3" class="Para">We examined changes in connectivity patterns and assessed the relative importance of wetlands to maintaining these patterns by targeting wetlands for removal based on network centrality metrics weighted by estimates of habitat quality and probability of inundation.</p></div><div id="ASec4" class="AbstractSection"><p class="Heading"><strong>Results</strong></p><p id="Par4" class="Para">We identified several distinct, broad-scale sub networks and phase transitions among playa wetlands in the Southern Plains. In particular, for organisms that can disperse<span>&nbsp;</span><span class="EmphasisTypeUnderline ">&gt;</span>2&nbsp;km a dense and expansive wetland sub network emerges in the Southern High Plains. This network was characterized by localized, densely connected wetland clusters at link distances (<i class="EmphasisTypeItalic ">h</i>) &gt;2&nbsp;km but &lt;5&nbsp;km and was most sensitive to changes in wetland availability (<i class="EmphasisTypeItalic ">p</i>) and configuration when<span>&nbsp;</span><i class="EmphasisTypeItalic ">h</i>&nbsp;=&nbsp;4&nbsp;km, and<span>&nbsp;</span><i class="EmphasisTypeItalic ">p</i>&nbsp;=&nbsp;0.2–0.4. It transitioned to a single, large connected wetland system at broader spatial scales even when the proportion of inundated wetland was relatively low (<i class="EmphasisTypeItalic ">p</i>&nbsp;=&nbsp;0.2).</p></div><div id="ASec5" class="AbstractSection"><p class="Heading"><strong>Conclusions</strong></p><p id="Par5" class="Para">Our findings suggest that redundancy in the potential for broad and fine-scale movements insulates this system from damage and facilitates system-wide connectivity among populations with different dispersal capacities.</p></div> application/pdf 10.1007/s10980-016-0436-0 en Springer A network model framework for prioritizing wetland conservation in the Great Plains article