Agriculture, the world's most dominant land use type, burdens freshwater biodiversity with a
multitude of stressors such as diffuse pollution and hydromorphological alteration. However …

The trophic state of many streams is likely to deteriorate in the future due to the continuing
increase in human‐induced nutrient availability. Therefore, it is of fundamental importance to …

The biota of European rivers are affected by a wide range of stressors impairing water
quality and hydro‐morphology. Only about 40% of Europe's rivers reach 'good ecological …

Multiple stressors threaten biodiversity and ecosystem integrity, imposing new challenges to
ecosystem management and restoration. Ecosystem managers are required to address and …

Mediterranean coastal wetlands are considered biodiversity hot-spots and contain a high
number of endemic species. The biodiversity of these ecosystems is endangered by several …

Abstract Purpose of Review Global warming and pollution are among the five major causes
of global biodiversity loss, particularly in aquatic invertebrates which are highly diverse but …

Human‐driven changes in nitrogen (N) and phosphorus (P) inputs are modifying
biogeochemical cycles and the trophic state of many habitats worldwide. These alterations …

Global climate change is likely to modify the ecological consequences of currently acting
stressors, but potentially important interactions between climate warming and land‐use …

The threat of excessive nutrient enrichment, or eutrophication, is intensifying across the
globe as climate change progresses, presenting a major management challenge …

Climate change and land‐use change are having substantial impacts on biodiversity world‐
wide, but few studies have considered the impact of these factors together. If the combined …