SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2024880484> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W2024880484 endingPage "235" @default.
W2024880484 startingPage "224" @default.
W2024880484 abstract "Ensemble species distribution models combine the strengths of several species environmental matching models, while minimizing the weakness of any one model. Ensemble models may be particularly useful in risk analysis of recently arrived, harmful invasive species because species may not yet have spread to all suitable habitats, leaving species-environment relationships difficult to determine. We tested five individual models (logistic regression, boosted regression trees, random forest, multivariate adaptive regression splines (MARS), and maximum entropy model or Maxent) and ensemble modeling for selected nonnative plant species in Yellowstone and Grand Teton National Parks, Wyoming; Sequoia and Kings Canyon National Parks, California, and areas of interior Alaska. The models are based on field data provided by the park staffs, combined with topographic, climatic, and vegetation predictors derived from satellite data. For the four invasive plant species tested, ensemble models were the only models that ranked in the top three models for both field validation and test data. Ensemble models may be more robust than individual species-environment matching models for risk analysis." @default.
W2024880484 created "2016-06-24" @default.
W2024880484 creator A5001979100 @default.
W2024880484 creator A5006248635 @default.
W2024880484 creator A5015456483 @default.
W2024880484 creator A5018447212 @default.
W2024880484 creator A5030892182 @default.
W2024880484 creator A5069706703 @default.
W2024880484 creator A5069934405 @default.
W2024880484 date "2010-02-01" @default.
W2024880484 modified "2023-10-17" @default.
W2024880484 title "Ensemble Habitat Mapping of Invasive Plant Species" @default.
W2024880484 cites W1678356000 @default.
W2024880484 cites W1849474684 @default.
W2024880484 cites W1941660934 @default.
W2024880484 cites W1966265113 @default.
W2024880484 cites W1990748933 @default.
W2024880484 cites W1999341682 @default.
W2024880484 cites W2002221706 @default.
W2024880484 cites W2024046085 @default.
W2024880484 cites W2024942826 @default.
W2024880484 cites W2033686454 @default.
W2024880484 cites W2043737264 @default.
W2024880484 cites W2046920493 @default.
W2024880484 cites W2055394180 @default.
W2024880484 cites W2056868695 @default.
W2024880484 cites W2070493638 @default.
W2024880484 cites W2079018504 @default.
W2024880484 cites W2088626174 @default.
W2024880484 cites W2089454337 @default.
W2024880484 cites W2092141482 @default.
W2024880484 cites W2099320848 @default.
W2024880484 cites W2102201073 @default.
W2024880484 cites W2105643997 @default.
W2024880484 cites W2110248929 @default.
W2024880484 cites W2112315008 @default.
W2024880484 cites W2114630657 @default.
W2024880484 cites W2115268776 @default.
W2024880484 cites W2119202692 @default.
W2024880484 cites W2123337039 @default.
W2024880484 cites W2124155637 @default.
W2024880484 cites W2126827475 @default.
W2024880484 cites W2128285285 @default.
W2024880484 cites W2133642590 @default.
W2024880484 cites W2135695572 @default.
W2024880484 cites W2137761111 @default.
W2024880484 cites W2138751033 @default.
W2024880484 cites W2139416101 @default.
W2024880484 cites W2140263047 @default.
W2024880484 cites W2141014056 @default.
W2024880484 cites W2143730261 @default.
W2024880484 cites W2149808755 @default.
W2024880484 cites W2151615516 @default.
W2024880484 cites W2156808278 @default.
W2024880484 cites W2161548576 @default.
W2024880484 cites W2163016406 @default.
W2024880484 cites W2911964244 @default.
W2024880484 cites W4301861531 @default.
W2024880484 doi "https://doi.org/10.1111/j.1539-6924.2009.01343.x" @default.
W2024880484 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20136746" @default.
W2024880484 hasPublicationYear "2010" @default.
W2024880484 type Work @default.
W2024880484 sameAs 2024880484 @default.
W2024880484 citedByCount "165" @default.
W2024880484 countsByYear W20248804842012 @default.
W2024880484 countsByYear W20248804842013 @default.
W2024880484 countsByYear W20248804842014 @default.
W2024880484 countsByYear W20248804842015 @default.
W2024880484 countsByYear W20248804842016 @default.
W2024880484 countsByYear W20248804842017 @default.
W2024880484 countsByYear W20248804842018 @default.
W2024880484 countsByYear W20248804842019 @default.
W2024880484 countsByYear W20248804842020 @default.
W2024880484 countsByYear W20248804842021 @default.
W2024880484 countsByYear W20248804842022 @default.
W2024880484 countsByYear W20248804842023 @default.
W2024880484 crossrefType "journal-article" @default.
W2024880484 hasAuthorship W2024880484A5001979100 @default.
W2024880484 hasAuthorship W2024880484A5006248635 @default.
W2024880484 hasAuthorship W2024880484A5015456483 @default.
W2024880484 hasAuthorship W2024880484A5018447212 @default.
W2024880484 hasAuthorship W2024880484A5030892182 @default.
W2024880484 hasAuthorship W2024880484A5069706703 @default.
W2024880484 hasAuthorship W2024880484A5069934405 @default.
W2024880484 hasBestOaLocation W20248804841 @default.
W2024880484 hasConcept C102715595 @default.
W2024880484 hasConcept C103215972 @default.
W2024880484 hasConcept C105795698 @default.
W2024880484 hasConcept C119857082 @default.
W2024880484 hasConcept C119898033 @default.
W2024880484 hasConcept C132124917 @default.
W2024880484 hasConcept C136020623 @default.
W2024880484 hasConcept C151956035 @default.
W2024880484 hasConcept C152877465 @default.
W2024880484 hasConcept C153294291 @default.
W2024880484 hasConcept C161584116 @default.
W2024880484 hasConcept C169258074 @default.
W2024880484 hasConcept C185933670 @default.