The red harmful plague in times of climate change: blooms of the Cyanobacterium Planktothrix rubescens triggered by stratification dynamics and irradiance
The red harmful plague in times of climate change: blooms of the Cyanobacterium Planktothrix rubescens triggered by stratification dynamics and irradiance
Planktothrix rubescens is a harmful planktonic cyanobacterium, forming concentrated metalimnetic populations in deep oligo- and mesotrophic lakes, even after successful restoration. In Lake Zurich (Switzerland), P. rubescens emerged as a keystone species with annual mass developments since the 1970s. Its success was partly attributed to effects of lake warming, such as changes in thermal stratification and seasonal deep mixing. However, recent observations based on a biweekly monitoring campaign (2009–2020) revealed two massive breakdowns and striking seasonal oscillations of the population. Here, we disentangle positive from negative consequences of secular lake warming and annual variations in weather conditions on P. rubescens dynamics: (i) despite the high survival rates of overwintering populations (up to 25%) during three consecutive winters (2014–2016) of incomplete deep convective mixing, cyanobacterial regrowth during the following stratified season was moderate and not overshooting a distinct standing stock threshold. Moreover, we recorded a negative trend for annual population maxima and total population size, pointing to a potential nutrient limitation after a series of incomplete winter mixing. Thus, the predication of steadily increasing blooms of P. rubescens could not be confirmed for the last decade. (ii) The seasonal reestablishment of P. rubescens was strongly coupled with a timely formation of a stable metalimnion structure, where the first positive net growth in the following productive summer season was observed. The trigger for the vertical positioning of filaments within the metalimnion was irradiance and not maximal water column stability. Repetitive disruptions of the vernal metalimnion owing to unstable weather conditions, as in spring 2019, went in parallel with a massive breakdown of the standing stock and marginal regrowth during thermal stratification. (iii) Driven by light intensity, P. rubescens was entrained into the turbulent epilimnion in autumn, followed by a second peak in population growth. Thus, the typical bimodal growth pattern was still intact during the last decade. Our long-term study highlights the finely tuned interplay between climate-induced changes and variability of thermal stratification dynamics and physiological traits of P. rubescens, determining its survival in a mesotrophic temperate lake.
cyanoHAB, cyanobacteria, deep chlorophyll maximum, deep convective mixing, lake warming, long-term data, metalimnetic species, neutral buoyancy
1-19
Knapp, Deborah
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Fernández Castro, Bieito
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Marty, Daniel
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Loher, Eugen
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Köster, Oliver
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Wüest, Alfred
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Posch, Thomas
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25 August 2021
Knapp, Deborah
953429a0-9cb9-4de7-bb94-ffbf9eefcd43
Fernández Castro, Bieito
8017e93c-d5ee-4bba-b443-9c72ca512d61
Marty, Daniel
b25aee05-300b-41b6-93ea-a8906ea8640e
Loher, Eugen
bdedb288-2be3-4166-b3ee-212add373ca4
Köster, Oliver
4384f1c0-9c8d-4160-ace2-db2a7e80e595
Wüest, Alfred
1d8766ff-b66d-40df-a01e-fe4062512f08
Posch, Thomas
a0a3f97e-010f-4605-9de3-9de4c7e54780
Knapp, Deborah, Fernández Castro, Bieito, Marty, Daniel, Loher, Eugen, Köster, Oliver, Wüest, Alfred and Posch, Thomas
(2021)
The red harmful plague in times of climate change: blooms of the Cyanobacterium Planktothrix rubescens triggered by stratification dynamics and irradiance.
Frontiers in Microbiology, 12, , [705914].
(doi:10.3389/fmicb.2021.705914).
Abstract
Planktothrix rubescens is a harmful planktonic cyanobacterium, forming concentrated metalimnetic populations in deep oligo- and mesotrophic lakes, even after successful restoration. In Lake Zurich (Switzerland), P. rubescens emerged as a keystone species with annual mass developments since the 1970s. Its success was partly attributed to effects of lake warming, such as changes in thermal stratification and seasonal deep mixing. However, recent observations based on a biweekly monitoring campaign (2009–2020) revealed two massive breakdowns and striking seasonal oscillations of the population. Here, we disentangle positive from negative consequences of secular lake warming and annual variations in weather conditions on P. rubescens dynamics: (i) despite the high survival rates of overwintering populations (up to 25%) during three consecutive winters (2014–2016) of incomplete deep convective mixing, cyanobacterial regrowth during the following stratified season was moderate and not overshooting a distinct standing stock threshold. Moreover, we recorded a negative trend for annual population maxima and total population size, pointing to a potential nutrient limitation after a series of incomplete winter mixing. Thus, the predication of steadily increasing blooms of P. rubescens could not be confirmed for the last decade. (ii) The seasonal reestablishment of P. rubescens was strongly coupled with a timely formation of a stable metalimnion structure, where the first positive net growth in the following productive summer season was observed. The trigger for the vertical positioning of filaments within the metalimnion was irradiance and not maximal water column stability. Repetitive disruptions of the vernal metalimnion owing to unstable weather conditions, as in spring 2019, went in parallel with a massive breakdown of the standing stock and marginal regrowth during thermal stratification. (iii) Driven by light intensity, P. rubescens was entrained into the turbulent epilimnion in autumn, followed by a second peak in population growth. Thus, the typical bimodal growth pattern was still intact during the last decade. Our long-term study highlights the finely tuned interplay between climate-induced changes and variability of thermal stratification dynamics and physiological traits of P. rubescens, determining its survival in a mesotrophic temperate lake.
Text
fmicb-12-705914
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Accepted/In Press date: 27 July 2021
Published date: 25 August 2021
Keywords:
cyanoHAB, cyanobacteria, deep chlorophyll maximum, deep convective mixing, lake warming, long-term data, metalimnetic species, neutral buoyancy
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Local EPrints ID: 453652
URI: http://eprints.soton.ac.uk/id/eprint/453652
ISSN: 1664-302X
PURE UUID: 07519b5c-f81e-41b3-a81e-d33fea59cc1c
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Date deposited: 20 Jan 2022 17:44
Last modified: 17 Mar 2024 04:04
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Author:
Deborah Knapp
Author:
Daniel Marty
Author:
Eugen Loher
Author:
Oliver Köster
Author:
Alfred Wüest
Author:
Thomas Posch
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