Abstract
BackgroundA hallmark of the latter half of the 20th century is the widespread, rapid intensification of a variety of anthropogenically-driven environmental changes—a “Great Acceleration.” While there is evidence of a Great Acceleration in a variety of factors known to be linked to water quality degradation, such as conversion of land to agriculture and intensification of fertilizer use, it is not known whether there has been a similar acceleration of freshwater eutrophication.Methodology/Principal FindingsUsing quantitative reconstructions of diatom-inferred total phosphorus (DI-TP) as a proxy for lake trophic state, we synthesized results from 67 paleolimnological studies from across Europe and North America to evaluate whether most lakes showed a pattern of eutrophication with time and whether this trend was accelerated after 1945 CE, indicative of a Great Acceleration. We found that European lakes have experienced widespread increases in DI-TP over the 20th century and that 33% of these lakes show patterns consistent with a post-1945 CE Great Acceleration. In North America, the proportion of lakes that increased in DI-TP over time is much lower and only 9% exhibited a Great Acceleration of eutrophication.Conclusions/SignificanceThe longer and more widespread history of anthropogenic influence in Europe, the leading cause for the relatively pervasive freshwater eutrophication, provides an important cautionary tale; our current path of intensive agriculture around the world may lead to an acceleration of eutrophication in downstream lakes that could take centuries from which to recover.
Highlights
Global land-use change has been a dominant driving feature of the Great Acceleration (GA) [1]
We expected to find more evidence of a GA in Europe than in North America because of Europe’s relatively longer history of intensive agriculture [14] as well as its higher current and historical population density [15]. Both within and between continents, we captured a broad gradient in lake and catchment morphometry, geology, climate and catchment land use, yet we detected strong differences in the mean and in the dynamics of lake trophic state between North America and Europe
We found that 33% of European lakes had a significant increase in the rate of change in diatom-inferred total phosphorus (DI-TP) post-1945 CE and none showed a significant decrease post-1945 CE
Summary
Global land-use change has been a dominant driving feature of the Great Acceleration (GA) [1]. Efforts to feed the world’s rapidly growing population have resulted in intensification of land use, including increased application of nitrogen (N) and phosphorus (P) fertilizers [3]. Both P and N play a key role in eutrophication, one of the most widespread water quality issues [4]. A hallmark of the latter half of the 20th century is the widespread, rapid intensification of a variety of anthropogenically-driven environmental changes—a ‘‘Great Acceleration.’’ While there is evidence of a Great Acceleration in a variety of factors known to be linked to water quality degradation, such as conversion of land to agriculture and intensification of fertilizer use, it is not known whether there has been a similar acceleration of freshwater eutrophication
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