Reasons for the dramatic loss of Lobelia dortmanna, a keystone plant species of softwater lakes in the Northern Hemisphere

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Reasons for the dramatic loss of Lobelia dortmanna, a keystone plant species of softwater lakes in the Northern Hemisphere. / Nielsen, Sune Ringsing; Martinsen, Kenneth Thorø; Pedersen, Ole; Baastrup-Spohr, Lars.

I: Freshwater Biology, Bind 68, Nr. 10, 2023, s. 1673-1684.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Nielsen, SR, Martinsen, KT, Pedersen, O & Baastrup-Spohr, L 2023, 'Reasons for the dramatic loss of Lobelia dortmanna, a keystone plant species of softwater lakes in the Northern Hemisphere', Freshwater Biology, bind 68, nr. 10, s. 1673-1684. https://doi.org/10.1111/fwb.14149

APA

Nielsen, S. R., Martinsen, K. T., Pedersen, O., & Baastrup-Spohr, L. (2023). Reasons for the dramatic loss of Lobelia dortmanna, a keystone plant species of softwater lakes in the Northern Hemisphere. Freshwater Biology, 68(10), 1673-1684. https://doi.org/10.1111/fwb.14149

Vancouver

Nielsen SR, Martinsen KT, Pedersen O, Baastrup-Spohr L. Reasons for the dramatic loss of Lobelia dortmanna, a keystone plant species of softwater lakes in the Northern Hemisphere. Freshwater Biology. 2023;68(10):1673-1684. https://doi.org/10.1111/fwb.14149

Author

Nielsen, Sune Ringsing ; Martinsen, Kenneth Thorø ; Pedersen, Ole ; Baastrup-Spohr, Lars. / Reasons for the dramatic loss of Lobelia dortmanna, a keystone plant species of softwater lakes in the Northern Hemisphere. I: Freshwater Biology. 2023 ; Bind 68, Nr. 10. s. 1673-1684.

Bibtex

@article{d07ee9e7ec364b5ca33f666b64888458,
title = "Reasons for the dramatic loss of Lobelia dortmanna, a keystone plant species of softwater lakes in the Northern Hemisphere",
abstract = "Lobelia dortmanna is an iconic keystone species of northern softwater lakes in Europe as well as North America. It has suffered a dramatic decline in distribution in recent decades and the root causes are not well-known, although elements such as eutrophication, acidification and brownification have been suggested as underlying reasons for the decline. In order to quantify the causes of change in the occurrence of L. dortmanna in Danish lakes, we firstly mapped the historical distribution of the species and secondly collected the available recent information on the presence of L. dortmanna along with data on environmental variables and plant community composition from the lakes. We identified 168 original Lobelia lakes of which L. dortmanna had, by now, gone extinct in 48%. A subset of 80 lakes formed the backbone of this study owing to the availability of data related to environmental conditions and aquatic plant communities. Using piecewise structural equation models, we identified that only the mean height of the lake plant communities had a direct negative influence on the occurrence of L. dortmanna. The expected adverse effects of eutrophication and alkalinity were all indirect, and funnelled through the trophic affinity of the plant community, which in turn influenced the mean plant height. Direct effects of eutrophication via shading from phytoplankton, acidification or brownification were not observed. We show that eutrophication, particularly in more alkaline water, is likely to have caused the dramatic decline in occurrence of L. dortmanna, but our models indicated that the effect of eutrophication acted via interspecific competition from other larger rooted aquatic plants. Conservation efforts aimed at protecting small aquatic plant species should be prioritised in more alkaline lakes where such species are most at risk. Furthermore, managers should be aware of the threat of interspecific competition posed by larger aquatic plants on their smaller counterparts.",
keywords = "bicarbonate, competition, eutrophication, isoetids, rare species",
author = "Nielsen, {Sune Ringsing} and Martinsen, {Kenneth Thor{\o}} and Ole Pedersen and Lars Baastrup-Spohr",
note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Freshwater Biology published by John Wiley & Sons Ltd.",
year = "2023",
doi = "10.1111/fwb.14149",
language = "English",
volume = "68",
pages = "1673--1684",
journal = "Freshwater Biology",
issn = "0046-5070",
publisher = "Wiley-Blackwell",
number = "10",

}

RIS

TY - JOUR

T1 - Reasons for the dramatic loss of Lobelia dortmanna, a keystone plant species of softwater lakes in the Northern Hemisphere

AU - Nielsen, Sune Ringsing

AU - Martinsen, Kenneth Thorø

AU - Pedersen, Ole

AU - Baastrup-Spohr, Lars

N1 - Publisher Copyright: © 2023 The Authors. Freshwater Biology published by John Wiley & Sons Ltd.

PY - 2023

Y1 - 2023

N2 - Lobelia dortmanna is an iconic keystone species of northern softwater lakes in Europe as well as North America. It has suffered a dramatic decline in distribution in recent decades and the root causes are not well-known, although elements such as eutrophication, acidification and brownification have been suggested as underlying reasons for the decline. In order to quantify the causes of change in the occurrence of L. dortmanna in Danish lakes, we firstly mapped the historical distribution of the species and secondly collected the available recent information on the presence of L. dortmanna along with data on environmental variables and plant community composition from the lakes. We identified 168 original Lobelia lakes of which L. dortmanna had, by now, gone extinct in 48%. A subset of 80 lakes formed the backbone of this study owing to the availability of data related to environmental conditions and aquatic plant communities. Using piecewise structural equation models, we identified that only the mean height of the lake plant communities had a direct negative influence on the occurrence of L. dortmanna. The expected adverse effects of eutrophication and alkalinity were all indirect, and funnelled through the trophic affinity of the plant community, which in turn influenced the mean plant height. Direct effects of eutrophication via shading from phytoplankton, acidification or brownification were not observed. We show that eutrophication, particularly in more alkaline water, is likely to have caused the dramatic decline in occurrence of L. dortmanna, but our models indicated that the effect of eutrophication acted via interspecific competition from other larger rooted aquatic plants. Conservation efforts aimed at protecting small aquatic plant species should be prioritised in more alkaline lakes where such species are most at risk. Furthermore, managers should be aware of the threat of interspecific competition posed by larger aquatic plants on their smaller counterparts.

AB - Lobelia dortmanna is an iconic keystone species of northern softwater lakes in Europe as well as North America. It has suffered a dramatic decline in distribution in recent decades and the root causes are not well-known, although elements such as eutrophication, acidification and brownification have been suggested as underlying reasons for the decline. In order to quantify the causes of change in the occurrence of L. dortmanna in Danish lakes, we firstly mapped the historical distribution of the species and secondly collected the available recent information on the presence of L. dortmanna along with data on environmental variables and plant community composition from the lakes. We identified 168 original Lobelia lakes of which L. dortmanna had, by now, gone extinct in 48%. A subset of 80 lakes formed the backbone of this study owing to the availability of data related to environmental conditions and aquatic plant communities. Using piecewise structural equation models, we identified that only the mean height of the lake plant communities had a direct negative influence on the occurrence of L. dortmanna. The expected adverse effects of eutrophication and alkalinity were all indirect, and funnelled through the trophic affinity of the plant community, which in turn influenced the mean plant height. Direct effects of eutrophication via shading from phytoplankton, acidification or brownification were not observed. We show that eutrophication, particularly in more alkaline water, is likely to have caused the dramatic decline in occurrence of L. dortmanna, but our models indicated that the effect of eutrophication acted via interspecific competition from other larger rooted aquatic plants. Conservation efforts aimed at protecting small aquatic plant species should be prioritised in more alkaline lakes where such species are most at risk. Furthermore, managers should be aware of the threat of interspecific competition posed by larger aquatic plants on their smaller counterparts.

KW - bicarbonate

KW - competition

KW - eutrophication

KW - isoetids

KW - rare species

U2 - 10.1111/fwb.14149

DO - 10.1111/fwb.14149

M3 - Journal article

AN - SCOPUS:85167347384

VL - 68

SP - 1673

EP - 1684

JO - Freshwater Biology

JF - Freshwater Biology

SN - 0046-5070

IS - 10

ER -

ID: 362690143