SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891597691> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W2891597691 endingPage "287" @default.
W2891597691 startingPage "278" @default.
W2891597691 abstract "Total phosphorus (TP) is commonly used to assess water quality in shallow lakes and other surface waters. Shallow lakes require special consideration because they can transition between two alternative stable states: (1) a clear-water state that typically supports abundant submerged vegetation and provides high quality wildlife habitat, and (2) a turbid-water state with frequent algal blooms and poor habitat quality. A shallow lake’s TP level in relation to critical TP tipping points determines whether the lake is in a highly resilient clear state, a highly resilient turbid state, or whether the lake is in a dynamic region where either state is possible. Further, management options differ for highly resilient clear lakes versus lakes that may be in the turbid state. For example, resilient clear lakes may be assigned special watershed and shoreline protection to preserve their healthy conditions. On the other hand, managers may plan to allocate resources for assessment and possible in-lake management for lakes that have TP levels where the turbid state is possible. Managers would benefit from models that can predict whether a lake is in a resilient clear state or may be in the turbid state without physically visiting a lake to collect water samples or other in-lake data. We used TP data from 118 shallow lakes in Minnesota and previously estimated TP tipping points to classify lakes as either highly resilient clear lakes (“stable-clear”) or possibly turbid (“bistable-turbid”). We used random forest methodology to build models for predicting these two TP classes using both remotely sensed watershed-scale predictors and in-lake variables, and we performed recursive feature elimination to find the most parsimonious model. We demonstrate that TP class can be predicted using only watershed-scale remotely sensed variables and that land cover and use, soil texture, and ecoregion are key predictor variables for TP class. We highlight how our model predictions can be used as indicators to help make management decisions for a set of shallow lakes." @default.
W2891597691 created "2018-09-27" @default.
W2891597691 creator A5030821429 @default.
W2891597691 creator A5035069661 @default.
W2891597691 creator A5068841744 @default.
W2891597691 creator A5071601685 @default.
W2891597691 creator A5079425043 @default.
W2891597691 date "2019-01-01" @default.
W2891597691 modified "2023-10-13" @default.
W2891597691 title "Predicting total phosphorus levels as indicators for shallow lake management" @default.
W2891597691 cites W1875061881 @default.
W2891597691 cites W1925697254 @default.
W2891597691 cites W1967687784 @default.
W2891597691 cites W1968888543 @default.
W2891597691 cites W1975816373 @default.
W2891597691 cites W1981534072 @default.
W2891597691 cites W1989228755 @default.
W2891597691 cites W1994900091 @default.
W2891597691 cites W1999225292 @default.
W2891597691 cites W2015123470 @default.
W2891597691 cites W2015765401 @default.
W2891597691 cites W2023102110 @default.
W2891597691 cites W2024123445 @default.
W2891597691 cites W2036045022 @default.
W2891597691 cites W2067342720 @default.
W2891597691 cites W2081395877 @default.
W2891597691 cites W2091908781 @default.
W2891597691 cites W2093374942 @default.
W2891597691 cites W2096314948 @default.
W2891597691 cites W2100704947 @default.
W2891597691 cites W2105252847 @default.
W2891597691 cites W2111710014 @default.
W2891597691 cites W2114845953 @default.
W2891597691 cites W2117418766 @default.
W2891597691 cites W2118267309 @default.
W2891597691 cites W2123932681 @default.
W2891597691 cites W2137055648 @default.
W2891597691 cites W2139086914 @default.
W2891597691 cites W2143481518 @default.
W2891597691 cites W2145212199 @default.
W2891597691 cites W2159154315 @default.
W2891597691 cites W2261255581 @default.
W2891597691 cites W2282630178 @default.
W2891597691 cites W2343993262 @default.
W2891597691 cites W2734999920 @default.
W2891597691 cites W2766626950 @default.
W2891597691 cites W2911964244 @default.
W2891597691 cites W4244313837 @default.
W2891597691 doi "https://doi.org/10.1016/j.ecolind.2018.09.002" @default.
W2891597691 hasPublicationYear "2019" @default.
W2891597691 type Work @default.
W2891597691 sameAs 2891597691 @default.
W2891597691 citedByCount "8" @default.
W2891597691 countsByYear W28915976912019 @default.
W2891597691 countsByYear W28915976912020 @default.
W2891597691 countsByYear W28915976912021 @default.
W2891597691 countsByYear W28915976912022 @default.
W2891597691 countsByYear W28915976912023 @default.
W2891597691 crossrefType "journal-article" @default.
W2891597691 hasAuthorship W2891597691A5030821429 @default.
W2891597691 hasAuthorship W2891597691A5035069661 @default.
W2891597691 hasAuthorship W2891597691A5068841744 @default.
W2891597691 hasAuthorship W2891597691A5071601685 @default.
W2891597691 hasAuthorship W2891597691A5079425043 @default.
W2891597691 hasConcept C110872660 @default.
W2891597691 hasConcept C120305227 @default.
W2891597691 hasConcept C12064787 @default.
W2891597691 hasConcept C127313418 @default.
W2891597691 hasConcept C142724271 @default.
W2891597691 hasConcept C142796444 @default.
W2891597691 hasConcept C185933670 @default.
W2891597691 hasConcept C186699998 @default.
W2891597691 hasConcept C187320778 @default.
W2891597691 hasConcept C18903297 @default.
W2891597691 hasConcept C2776133958 @default.
W2891597691 hasConcept C2780797713 @default.
W2891597691 hasConcept C2780892065 @default.
W2891597691 hasConcept C39432304 @default.
W2891597691 hasConcept C42088612 @default.
W2891597691 hasConcept C71924100 @default.
W2891597691 hasConcept C76886044 @default.
W2891597691 hasConcept C8625798 @default.
W2891597691 hasConcept C86803240 @default.
W2891597691 hasConcept C87717796 @default.
W2891597691 hasConceptScore W2891597691C110872660 @default.
W2891597691 hasConceptScore W2891597691C120305227 @default.
W2891597691 hasConceptScore W2891597691C12064787 @default.
W2891597691 hasConceptScore W2891597691C127313418 @default.
W2891597691 hasConceptScore W2891597691C142724271 @default.
W2891597691 hasConceptScore W2891597691C142796444 @default.
W2891597691 hasConceptScore W2891597691C185933670 @default.
W2891597691 hasConceptScore W2891597691C186699998 @default.
W2891597691 hasConceptScore W2891597691C187320778 @default.
W2891597691 hasConceptScore W2891597691C18903297 @default.
W2891597691 hasConceptScore W2891597691C2776133958 @default.
W2891597691 hasConceptScore W2891597691C2780797713 @default.
W2891597691 hasConceptScore W2891597691C2780892065 @default.
W2891597691 hasConceptScore W2891597691C39432304 @default.