| publications-1121 |
PEER REVIEWED ARTICLE |
2018 |
Margot Sepp , Toomas Kõiv , Peeter Nõges , Tiina Nõges |
Do organic matter metrics included in lake surveillance monitoring in Europe provide a broad picture of brownification and enrichment with oxygen consuming substances? |
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10.1016/j.scitotenv.2017.08.179 |
Uncategorized |
Natural Water Bodies |
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No abstract available |
603378 |
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| publications-1122 |
PEER REVIEWED ARTICLE |
2018 |
Martin Søndergaard , Torben L. Lauridsen , Liselotte S. Johansson , Erik Jeppesen |
Gravel pit lakes in Denmark: Chemical and biological state |
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10.1016/j.scitotenv.2017.08.163 |
Uncategorized |
Natural Water Bodies |
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No abstract available |
603378 |
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| publications-1123 |
PEER REVIEWED ARTICLE |
2018 |
Konstantinos Stefanidis , Yiannis Panagopoulos , Maria Mimikou |
Response of a multi-stressed Mediterranean river to future climate and socio-economic scenarios |
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10.1016/j.scitotenv.2018.01.282 |
Uncategorized |
Precipitation & Ecological Systems |
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No abstract available |
603378 |
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| publications-1124 |
PEER REVIEWED ARTICLE |
2018 |
Qing Yu , Hong-Zhu Wang , Erik Jeppesen , Chi Xu , Hai-Jun Wang |
Reply to Cao et al.s comment on “Does the responses of Vallisneria natans (Lour.) Hara to high nitrogen loading differ between the summer high-growth season and the low-growth season? Science of the Total Environment 601–602 (2017) 1513–1521” |
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10.1016/j.scitotenv.2017.09.306 |
Uncategorized |
Precipitation & Ecological Systems |
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No abstract available |
603378 |
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| publications-1125 |
PEER REVIEWED ARTICLE |
2018 |
Petr Zajicek , Johannes Radinger , Christian Wolter |
Disentangling multiple pressures on fish assemblages in large rivers |
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10.1016/j.scitotenv.2018.01.307 |
Uncategorized |
Precipitation & Ecological Systems |
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No abstract available |
603378 |
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| publications-1126 |
PEER REVIEWED ARTICLE |
2015 |
Paul G. Whitehead , Gianbattista Bussi , Michael J. Bowes , Daniel S. Read , Michael G. Hutchins , J. Alex Elliott , Simon J. Dadson |
Dynamic modelling of multiple phytoplankton groups in rivers with an application to the Thames river system in the UK |
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10.1016/j.envsoft.2015.09.010 |
Hydrological modeling |
Natural Water Bodies |
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No abstract available |
603378 |
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| publications-1127 |
PEER REVIEWED ARTICLE |
2017 |
Eugenio Molina-Navarro , Hans E. Andersen , Anders Nielsen , Hans Thodsen , Dennis Trolle |
The impact of the objective function in multi-site and multi-variable calibration of the SWAT model |
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10.1016/j.envsoft.2017.03.018 |
Uncategorized |
Natural Water Bodies |
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No abstract available |
603378 |
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| publications-1128 |
PEER REVIEWED ARTICLE |
2018 |
Sabine Hilt , Marta M. Alirangues Nuñez , Elisabeth S. Bakker , Irmgard Blindow , Thomas A. Davidson , Mikael Gillefalk , Lars-Anders Hansson , Jan H |
Response of Submerged Macrophyte Communities to External and Internal Restoration Measures in North Temperate Shallow Lakes |
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10.3389/fpls.2018.00194 |
Simulation & Modeling |
Natural Water Bodies |
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No abstract available |
603378 |
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| publications-1129 |
PEER REVIEWED ARTICLE |
2016 |
Jianfeng Chen , Te Cao , Xiaolin Zhang , Yilong Xi , Leyi Ni , Erik Jeppesen |
Differential photosynthetic and morphological adaptations to low light affect depth distribution of two submersed macrophytes in lakes |
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10.1038/srep34028 |
Uncategorized |
Natural Water Bodies |
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AbstractTo evaluate the relative importance of photosynthetic versus morphological adaptations of submersed macrophytes to low light intensity in lakes, rapid light curves (RLCs), morphological parameters, relative growth rate (RGR), clonal reproduction and abundance of two submersed macrophytes (Potamogeton maackianus and Vallisneria natans) were examined under 2.8%, 7.1%, 17.1% and 39.5% ambient light in a field and outdoor experimental study. The plants increased their initial slope of RLCs (α) and decreased their minimum saturating irradiance (Ek) and maximum relative electron transport rate (ETRm) of RLCs under low light stress, but V. natans was more sensitive in RLCs than P. maackianus. Accordingly, the RGR, plant height and abundance of P. maackianus were higher in the high light regimes (shallow water) but lower in the low light regimes than those of V. natans. At the 2.8% ambient light, V. natans produced ramets and thus fulfilled its population expansion, in contrast to P. maackianus. The results revealed that P. maackianus as a canopy-former mainly elongated its shoot length towards the water surface to compensate for the low light conditions, however, it became limited in severe low light stress conditions. V. natans as a rosette adapted to low light stress mainly through photosynthetic adjustments and superior to severely low light than shoot elongation. |
603378 |
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| publications-1130 |
PEER REVIEWED ARTICLE |
2016 |
Yongqiang Zhou , Erik Jeppesen , Jingbao Li , Yunlin Zhang , Xinping Zhang , Xichun Li |
Impacts of Three Gorges Reservoir on the sedimentation regimes in the downstream-linked two largest Chinese freshwater lakes |
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10.1038/srep35396 |
Uncategorized |
Natural Water Bodies |
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AbstractWe studied the impacts of Three Gorges Reservoir (TGR) on the sedimentation regimes in the downstream-linked two largest Chinese freshwater lakes, Lake Dongting and Lake Poyang. Our results indicate that up to 1.73 × 109 t sediment was retained in TGR from June 2003 to December 2014. This resulted in a 145.9 × 106 t yr−1 decline in the suspended sediment load at Zhicheng and a 16.8 × 106 t yr−1 lower sediment flow from Yangtze River to Lake Dongting, which partially explains the 13.4 × 106 t yr−1 lower sedimentation in Lake Dongting during the post-TGR period. Furthermore, TGR resulted in a 0.5 ± 0.3 m reduction of the multi-year mean water level at the Lake Poyang outlet Hukou, accelerating the suspended sediment export discharge from the lake. The reduced sedimentation in Lake Poyang during the post-TGR period was estimated to 6.3 × 106 t yr−1. We estimate that a monthly mean concentration of sediment flow from TGR below 0.60 kg m−3 will lead to erosion in Lake Dongting and Lake Poyang. Better regulation of TGR may extend the life expectancy of the two vanishing large lakes. |
603378 |
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