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W2409336796 startingPage "1268" @default.
W2409336796 abstract "There is an urgent need to track how natural systems are responding to global change in order to better guide management efforts. Traditionally, taxonomically based metrics have been used as indicators of ecosystem integrity and conservation status. However, functional approaches offer promising advantages that can improve bioassessment performance. In this study, we aim to test the applicability of functional redundancy (FR), a functional feature related to the stability, resistance and resilience of ecosystems, as a tool for bioassessment, looking at woody riparian communities in particular. We used linear mixed-effect models to investigate the response of FR and other traditional biomonitoring indices to natural (drought duration) and anthropogenic stress gradients (flow regulation and agriculture) in a Mediterranean basin. Such indices include species richness, a taxonomic index, and the Riparian Quality Index, which is an index of ecological status. Then, we explored the ability of FR and the other indices to discriminate between different intensities of human alteration. FR showed higher explanatory capacity in response to multiple stressors, although we found significant negative relationships between all the biological indices (taxonomic, functional and ecological quality) and stress gradients. In addition, FR was the most accurate index to discriminate among different categories of human alteration in both perennial and intermittent river reaches, which allowed us to set threshold values to identify undisturbed (reference condition), moderately disturbed and highly disturbed reaches in the two types of river. Using these thresholds and the best-fitting model, we generated a map of human impact on the functional redundancy of riparian communities for all the stretches of the river network. Our results demonstrate that FR presents clear advantages over traditional methods, which suggests that it should be part of the biomonitoring toolbox used for environmental management so as to obtain better predictions of ecosystem response to environmental changes." @default.
W2409336796 created "2016-06-24" @default.
W2409336796 creator A5022964743 @default.
W2409336796 creator A5056424124 @default.
W2409336796 creator A5068656115 @default.
W2409336796 creator A5090368529 @default.
W2409336796 date "2016-10-01" @default.
W2409336796 modified "2023-09-25" @default.
W2409336796 title "Functional redundancy as a tool for bioassessment: A test using riparian vegetation" @default.
W2409336796 cites W140383388 @default.
W2409336796 cites W1511683044 @default.
W2409336796 cites W1550500279 @default.
W2409336796 cites W1591264101 @default.
W2409336796 cites W1605084677 @default.
W2409336796 cites W167319337 @default.
W2409336796 cites W1918228426 @default.
W2409336796 cites W1921950071 @default.
W2409336796 cites W1956660394 @default.
W2409336796 cites W1967634212 @default.
W2409336796 cites W1967901188 @default.
W2409336796 cites W1971931663 @default.
W2409336796 cites W1974383307 @default.
W2409336796 cites W1977444692 @default.
W2409336796 cites W1983367472 @default.
W2409336796 cites W1984188157 @default.
W2409336796 cites W1984633327 @default.
W2409336796 cites W1991782651 @default.
W2409336796 cites W1998184392 @default.
W2409336796 cites W2001057027 @default.
W2409336796 cites W2002258037 @default.
W2409336796 cites W2013729570 @default.
W2409336796 cites W2019655958 @default.
W2409336796 cites W2023914401 @default.
W2409336796 cites W2031459422 @default.
W2409336796 cites W2041976287 @default.
W2409336796 cites W2063308091 @default.
W2409336796 cites W2064077006 @default.
W2409336796 cites W2065265231 @default.
W2409336796 cites W2066290829 @default.
W2409336796 cites W2069912803 @default.
W2409336796 cites W2073713353 @default.
W2409336796 cites W2075275745 @default.
W2409336796 cites W2078204931 @default.
W2409336796 cites W2081270564 @default.
W2409336796 cites W2090555773 @default.
W2409336796 cites W2098000995 @default.
W2409336796 cites W2100191260 @default.
W2409336796 cites W2103317434 @default.
W2409336796 cites W2107140090 @default.
W2409336796 cites W2107625277 @default.
W2409336796 cites W2108707917 @default.
W2409336796 cites W2109274990 @default.
W2409336796 cites W2109729302 @default.
W2409336796 cites W2112775986 @default.
W2409336796 cites W2116057296 @default.
W2409336796 cites W2119389175 @default.
W2409336796 cites W2121332051 @default.
W2409336796 cites W2123294224 @default.
W2409336796 cites W2125360150 @default.
W2409336796 cites W2126022799 @default.
W2409336796 cites W2131795541 @default.
W2409336796 cites W2136590845 @default.
W2409336796 cites W2143979076 @default.
W2409336796 cites W2147269069 @default.
W2409336796 cites W2147784439 @default.
W2409336796 cites W2152429537 @default.
W2409336796 cites W2165389589 @default.
W2409336796 cites W2167969650 @default.
W2409336796 cites W2168173042 @default.
W2409336796 cites W2169484028 @default.
W2409336796 cites W2169718116 @default.
W2409336796 cites W2170575960 @default.
W2409336796 cites W2171283381 @default.
W2409336796 cites W2171883360 @default.
W2409336796 cites W2187279102 @default.
W2409336796 cites W2267292643 @default.
W2409336796 cites W2286284262 @default.
W2409336796 cites W380474606 @default.
W2409336796 cites W4205533290 @default.
W2409336796 doi "https://doi.org/10.1016/j.scitotenv.2016.05.186" @default.
W2409336796 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27277207" @default.
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