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Combining environmental DNA and species distribution modeling to evaluate reintroduction success of a freshwater fish
Riaz, M., Kuemmerlen, M., Wittwer, C., Cocchiararo, B., Khaliq, I., Pfenninger, M., & Nowak, C. (2020). Combining environmental DNA and species distribution modeling to evaluate reintroduction success of a freshwater fish. Ecological Applications, 30(2), e02034 (11 pp.). https://doi.org/10.1002/eap.2034
Ecosystem service change caused by climatological and non‐climatological drivers: a Swiss case study
Braun, D., de Jong, R., Schaepman, M. E., Furrer, R., Hein, L., Kienast, F., & Damm, A. (2019). Ecosystem service change caused by climatological and non‐climatological drivers: a Swiss case study. Ecological Applications, 29(4), e01901 (11 pp.). https://doi.org/10.1002/eap.1901
Integrating ecological theories and traits in process-based modeling of macroinvertebrate community dynamics in streams
Mondy, C. P., & Schuwirth, N. (2017). Integrating ecological theories and traits in process-based modeling of macroinvertebrate community dynamics in streams. Ecological Applications, 27(4), 1365-1377. https://doi.org/10.1002/eap.1530
Out-of-sample predictions from plant-insect food webs: robustness to missing and erroneous trophic interaction records
Pearse, I. S., & Altermatt, F. (2015). Out-of-sample predictions from plant-insect food webs: robustness to missing and erroneous trophic interaction records. Ecological Applications, 25(7), 1953-1961. https://doi.org/10.1890/14-1463.1
Long-term changes in community assembly, resistance, and resilience following experimental floods
Robinson, C. T. (2012). Long-term changes in community assembly, resistance, and resilience following experimental floods. Ecological Applications, 22(7), 1949-1961. https://doi.org/10.1890/11-1042.1
Quantitative recommendations for amphibian terrestrial habitat conservation derived from habitat selection behavior
Indermaur, L., & Schmidt, B. R. (2011). Quantitative recommendations for amphibian terrestrial habitat conservation derived from habitat selection behavior. Ecological Applications, 21(7), 2548-2554. https://doi.org/10.1890/10-2047.1
Experimental floods cause ecosystem regime shift in a regulated river
Robinson, C. T., & Uehlinger, U. (2008). Experimental floods cause ecosystem regime shift in a regulated river. Ecological Applications, 18(2), 511-526. https://doi.org/10.1890/07-0886.1
Modeling the forest transition: forest scarcity and ecosystem service hypotheses
Satake, A., & Rudel, T. K. (2007). Modeling the forest transition: forest scarcity and ecosystem service hypotheses. Ecological Applications, 17(7), 2024-2036. https://doi.org/10.1890/07-0283.1
A case for using litter breakdown to assess functional stream integrity
Gessner, M. O., & Chauvet, E. (2002). A case for using litter breakdown to assess functional stream integrity. Ecological Applications, 12(2), 498-510. https://doi.org/10.2307/3060958