SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4304080791> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W4304080791 endingPage "397" @default.
W4304080791 startingPage "381" @default.
W4304080791 abstract "Abstract Threatened species with restricted ranges are at risk from habitat fragmentation and loss, which amplifies genetic bottleneck and impacts of small changes to their environments. Ecological models including population viability analyses (PVAs) can predict the trajectory of populations in a way that is not invasive or detrimental to the study species. They can therefore be a vital tool in modeling populations for conservation purposes. Although habitat suitability models have been used in studies to suggest areas for protected area designation, PVAs are generally not used in this regard. Dryophytes suweonensis and Dryophytes flaviventris are two threatened treefrog species endemic to the Korean Peninsula. The two species face threats of habitat loss and degradation and predation by invasive species among others. We used an integrated modeling approach combining ecological niche, connectivity, and PVAs in Vortex to determine the likelihood of extinction of each species under baseline and protected area designation scenarios. Designation scenarios were simulated in Vortex through halting future reduction in carrying capacity (halting future degradation to sites through protected area status), reducing effects of catastrophes (mitigating the effects of drought), and reducing mortality rates (controlling invasive predator populations and ex situ raising of tadpoles to maturity). We classified the combination of these management efforts as “active management” as opposed to “no management,” which is currently being practiced. We additionally used a stepwise approach to determine designation priority of individual patches. Under current conditions (no management), the resulting effective metapopulations after 100 years were 167 ± 325 individuals with an 86.5% extinction probability for D. suweonensis and 165 ± 200 individuals with a 90.3% extinction probability for D. flaviventris . Under active management of all sites (93 sites covering 426.9 km 2 ), the extinction probability was 0% for both species with significantly increased metapopulation sizes, 15 910 ± 2855 for D. suweonensis , and 4400 ± 874 for D. flaviventris . Determining designation priority can inform the regulatory bodies on which habitat to designate and whether active or passive management should be applied. Without intervention, these species will be likely to face imminent extinction. In addition to being useful for government‐imposed conservation management, our study can be followed by future studies as a methodology for prioritizing sites for protected area designation." @default.
W4304080791 created "2022-10-10" @default.
W4304080791 creator A5001267950 @default.
W4304080791 creator A5023408422 @default.
W4304080791 creator A5032815222 @default.
W4304080791 date "2022-10-10" @default.
W4304080791 modified "2023-10-12" @default.
W4304080791 title "Influence of landscape and connectivity on anuran conservation: population viability analyses to designate protected areas" @default.
W4304080791 cites W1020648355 @default.
W4304080791 cites W1541774929 @default.
W4304080791 cites W1753063203 @default.
W4304080791 cites W1891556535 @default.
W4304080791 cites W1969609509 @default.
W4304080791 cites W1973231902 @default.
W4304080791 cites W1975801372 @default.
W4304080791 cites W1981228823 @default.
W4304080791 cites W1981705577 @default.
W4304080791 cites W1987445131 @default.
W4304080791 cites W1991121996 @default.
W4304080791 cites W1992669203 @default.
W4304080791 cites W2001727860 @default.
W4304080791 cites W2003509608 @default.
W4304080791 cites W2010546829 @default.
W4304080791 cites W2013531505 @default.
W4304080791 cites W2023635392 @default.
W4304080791 cites W2033498661 @default.
W4304080791 cites W2033686454 @default.
W4304080791 cites W2035454477 @default.
W4304080791 cites W2043962305 @default.
W4304080791 cites W2054587179 @default.
W4304080791 cites W2062130077 @default.
W4304080791 cites W2081224194 @default.
W4304080791 cites W2082447732 @default.
W4304080791 cites W2092085187 @default.
W4304080791 cites W2097458764 @default.
W4304080791 cites W2103530368 @default.
W4304080791 cites W2110090840 @default.
W4304080791 cites W2116725236 @default.
W4304080791 cites W2120766276 @default.
W4304080791 cites W2134762569 @default.
W4304080791 cites W2136507113 @default.
W4304080791 cites W2139117306 @default.
W4304080791 cites W2142950061 @default.
W4304080791 cites W2151174045 @default.
W4304080791 cites W2156104455 @default.
W4304080791 cites W2325107651 @default.
W4304080791 cites W2325158470 @default.
W4304080791 cites W2503014672 @default.
W4304080791 cites W2511398611 @default.
W4304080791 cites W2513120439 @default.
W4304080791 cites W2618533497 @default.
W4304080791 cites W2760818826 @default.
W4304080791 cites W2772039958 @default.
W4304080791 cites W2782878218 @default.
W4304080791 cites W2805759051 @default.
W4304080791 cites W2889640765 @default.
W4304080791 cites W2905738514 @default.
W4304080791 cites W2922061344 @default.
W4304080791 cites W2922495172 @default.
W4304080791 cites W2934428140 @default.
W4304080791 cites W2946057016 @default.
W4304080791 cites W2951205706 @default.
W4304080791 cites W2954401451 @default.
W4304080791 cites W2969909513 @default.
W4304080791 cites W3003996650 @default.
W4304080791 cites W3019326676 @default.
W4304080791 cites W3037192284 @default.
W4304080791 cites W3081659693 @default.
W4304080791 cites W3083432852 @default.
W4304080791 cites W3128388198 @default.
W4304080791 cites W3142112479 @default.
W4304080791 cites W3153657025 @default.
W4304080791 cites W4212975782 @default.
W4304080791 cites W4234574665 @default.
W4304080791 cites W4297577437 @default.
W4304080791 cites W4299318266 @default.
W4304080791 doi "https://doi.org/10.1111/acv.12829" @default.
W4304080791 hasPublicationYear "2022" @default.
W4304080791 type Work @default.
W4304080791 citedByCount "0" @default.
W4304080791 crossrefType "journal-article" @default.
W4304080791 hasAuthorship W4304080791A5001267950 @default.
W4304080791 hasAuthorship W4304080791A5023408422 @default.
W4304080791 hasAuthorship W4304080791A5032815222 @default.
W4304080791 hasConcept C101991246 @default.
W4304080791 hasConcept C116607704 @default.
W4304080791 hasConcept C144024400 @default.
W4304080791 hasConcept C149923435 @default.
W4304080791 hasConcept C151730666 @default.
W4304080791 hasConcept C179345059 @default.
W4304080791 hasConcept C185933670 @default.
W4304080791 hasConcept C18903297 @default.
W4304080791 hasConcept C189569837 @default.
W4304080791 hasConcept C205649164 @default.
W4304080791 hasConcept C24518262 @default.
W4304080791 hasConcept C2779223538 @default.
W4304080791 hasConcept C2908647359 @default.
W4304080791 hasConcept C47559259 @default.