Abstract
AbstractBackgroundLiparis loeseliiis a rare and declining orchid species restricted to rich fens in the Northern Hemisphere. Habitat destruction, eutrophication, drainage and scrub encroachment have been suggested as reasons for the decline. However, which factors are most important is not well understood.AimsBased on vegetation and environmental properties from extant, potential and historicalL. loeseliisites, we i) developed habitat suitability models from either Ellenberg Indicator Values or field-measured environmental properties, and ii) identified the primary reasons for the observed decline ofL. loeselii.ResultsNutrient status was the most important predictor forL. loeseliioccurrence, followed by hydrology proxies (Ellenberg reaction and Ellenberg moisture). Vegetation height and Ellenberg light were of minor importance.ConclusionEffect partitioning based on sites, from whichL. loeseliihas gone locally extinct, pinpointed eutrophication and drainage to be the most likely primary drivers of the species’ demise. Phosphorus limitation induced by discharge of Calcium-rich groundwater seems to be crucial forL. loeseliito sustain populations in landscapes dominated by intensive agricultural.
Publisher
Cold Spring Harbor Laboratory