Long-term effects on nitrogen and benthic fauna of extreme weather events: Examples from two Swedish headwater streams

Löfgren, Stefan; Grandin, Ulf; Stendera, Sonja

doi:10.1007/s13280-014-0562-3

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Long-term effects on nitrogen and benthic fauna of extreme weather events: Examples from two Swedish headwater streams

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Author(s): Stefan Löfgren , Ulf Grandin , Sonja Stendera

Publication date (Electronic): 15 November 2014

Journal: Ambio

Publisher: Springer Netherlands

Keywords: Storm-felling, Bark beetle, Nitrate, Rainstorm, Flashflood, Benthic macroinvertebrates

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Abstract

Climate change is expected to cause an increased frequency of extreme events such as heavy floods and major storms. Such stochastic events have an immediate impact on surface water quality, but the long-term effects are largely unknown. In this study, we assess long-term monitoring data from two Swedish headwater catchments affected by extreme weather events. At one site, where nitrogen effects in soil water, groundwater, and stream water were studied after storm-felling and subsequent forest dieback from bark beetle attack, long-term (>5 years) but relatively modest (generally <1 mg L ⁻¹) increases in ammonium (NH ₄-N) and nitrate (NO ₃-N) concentrations were observed in the various aqueous media. At the other site, where effects on benthic fauna were studied in a stream impacted by extreme geophysical disturbances caused by rainstorm-induced flashflood, only short-term (1 year) effects were revealed both regarding diversity and composition of species.

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Most cited references 36

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Landscape Filters and Species Traits: Towards Mechanistic Understanding and Prediction in Stream Ecology

N. LeRoy Poff (1997)

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Adaptation to natural flow regimes.

David A Lytle, N.LeRoy Poff, N LeRoy Poff (2004)

Floods and droughts are important features of most running water ecosystems, but the alteration of natural flow regimes by recent human activities, such as dam building, raises questions related to both evolution and conservation. Among organisms inhabiting running waters, what adaptations exist for surviving floods and droughts? How will the alteration of the frequency, timing and duration of flow extremes affect flood- and drought-adapted organisms? How rapidly can populations evolve in response to altered flow regimes? Here, we identify three modes of adaptation (life history, behavioral and morphological) that plants and animals use to survive floods and/or droughts. The mode of adaptation that an organism has determines its vulnerability to different kinds of flow regime alteration. The rate of evolution in response to flow regime alteration remains an open question. Because humans have now altered the flow regimes of most rivers and many streams, understanding the link between fitness and flow regime is crucial for the effective management and restoration of running water ecosystems.

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The Role of Disturbance in Stream Ecology

Vincent Resh, Arthur V. Brown, Alan Covich … (1988)

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Contributors

Stefan Löfgren: stefan.lofgren@slu.se

Bio :

Stefan Löfgren

is an Associate Professor at the Department of Aquatic Sciences and Assessment, SLU, Uppsala. His research is focused on acidification, eutrophication, and DOC dynamics in soils and surface waters; and effects of various forestry operations on these processes. He is also deeply involved in various environmental assessment and long-term monitoring programs.

Ulf Grandin: Ulf.Grandin@slu.se

Bio :

Ulf Grandin

is an Associate Professor and Lecturer at the Swedish University of Agricultural Sciences. His research interests include vegetation dynamics in boreal forest ecosystems and long-term ecological research. He is also deeply involved in several national and international environmental assessment and long-term monitoring programs.

Sonja Stendera: Stendera@gmail.com

Bio :

Sonja Stendera

is an Aquatic Ecologist with expertise in benthic macroinvertebrates, multivariate statistics, and data analysis. She holds a PhD in Environmental Assessment at SLU. During the initial work on this manuscript, Sonja was working at the county administration board of Dalarna, but currently holds a position in a German company.

Journal

Journal ID (nlm-ta): Ambio

Journal ID (iso-abbrev): Ambio

Title: Ambio

Publisher: Springer Netherlands (Dordrecht )

ISSN (Print): 0044-7447

ISSN (Electronic): 1654-7209

Publication date (Electronic): 15 November 2014

Publication date PMC-release: 15 November 2014

Publication date (Print): December 2014

Volume: 43

Issue: Suppl 1

Pages: 58-76

Affiliations

[ ]Department of Aquatic Sciences and Assessment, Swedish University of Agricultural Sciences, SLU, P.O. Box 7050, 750 07 Uppsala, Sweden

[ ]Weinsbergtalstraße 81, 42657 Solingen, Germany

Article

Publisher ID: 562

DOI: 10.1007/s13280-014-0562-3

PMC ID: 4235926

PubMed ID: 25403970

SO-VID: 2f0937f9-a1fc-4750-9460-db189b2ce3b6

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Open AccessThis article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited.

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ScienceOpen disciplines: Sociology

Keywords: storm-felling,bark beetle,nitrate,rainstorm,flashflood,benthic macroinvertebrates

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ScienceOpen disciplines: Sociology

Keywords: storm-felling, bark beetle, nitrate, rainstorm, flashflood, benthic macroinvertebrates

Long-term effects on nitrogen and benthic fauna of extreme weather events: Examples from two Swedish headwater streams

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Abstract

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Annual Reviews Climate Change and Extreme Events

Most cited references 36

Landscape Filters and Species Traits: Towards Mechanistic Understanding and Prediction in Stream Ecology

Adaptation to natural flow regimes.

The Role of Disturbance in Stream Ecology

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