Storm impacts on phytoplankton community dynamics in lakes

Jason D. Stockwell; Jonathan P. Doubek; Rita Adrian; Orlane Anneville; Cayelan C. Carey; Laurence Carvalho; Lisette N. De Senerpont Domis; Gael Dur; Marieke A. Frassl; Hans-Peter Grossart; Bas W. Ibelings; Marc J. Lajeunesse; Aleksandra M. Lewandowska; Maria E. Llames; Shin-Ichiro S. Matsuzaki; Emily R. Nodine; Peeter Noges; Vijay P. Patil; Francesco Pomati; Karsten Rinke; Lars G. Rudstam; James A. Rusak; Nico Salmaso; Christian T. Seltmann; Dietmar Straile; Stephen J. Thackeray; Wim Thiery; Pablo Urrutia-Cordero; Patrick Venail; Piet Verburg; R. Iestyn Woolway; Tamar Zohary; Mikkel R. Andersen; Ruchi Bhattacharya; Josef Hejzlar; Nasime Janatian; Alfred T. N. K. Kpodonu; Tanner J. Williamson; Harriet L. Wilson

doi:10.1111/gcb.15033

Storm impacts on phytoplankton community dynamics in lakes

Jason D. Stockwell, Jonathan P. Doubek, Rita Adrian, Orlane Anneville, Cayelan C. Carey, Laurence Carvalho, Lisette N. De Senerpont Domis, Gael Dur, Marieke A. Frassl, Hans-Peter Grossart, Bas W. Ibelings, Marc J. Lajeunesse, Aleksandra M. Lewandowska, Maria E. Llames, Shin-Ichiro S. Matsuzaki, Emily R. Nodine, Peeter Noges, Vijay P. Patil, Francesco Pomati, Karsten RinkeLars G. Rudstam, James A. Rusak, Nico Salmaso, Christian T. Seltmann, Dietmar Straile, Stephen J. Thackeray, Wim Thiery, Pablo Urrutia-Cordero, Patrick Venail, Piet Verburg, R. Iestyn Woolway, Tamar Zohary, Mikkel R. Andersen, Ruchi Bhattacharya, Josef Hejzlar, Nasime Janatian, Alfred T. N. K. Kpodonu, Tanner J. Williamson, Harriet L. Wilson

Ysgol Gwyddorau Eigion

Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl adolygu › adolygiad gan gymheiriaid

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In many regions across the globe, extreme weather events such as storms have increased in frequency, intensity, and duration due to climate change. Ecological theory predicts that such extreme events should have large impacts on ecosystem structure and function. High winds and precipitation associated with storms can affect lakes via short-term runoff events from watersheds and physical mixing of the water column. In addition, lakes connected to rivers and streams will also experience flushing due to high flow rates. Although we have a well-developed understanding of how wind and precipitation events can alter lake physical processes and some aspects of biogeochemical cycling, our mechanistic understanding of the emergent responses of phytoplankton communities is poor. Here we provide a comprehensive synthesis that identifies how storms interact with lake and watershed attributes and their antecedent conditions to generate changes in lake physical and chemical environments. Such changes can restructure phytoplankton communities and their dynamics, as well as result in altered ecological function (e.g., carbon, nutrient and energy cycling) in the short- and long-term. We summarize the current understanding of storm-induced phytoplankton dynamics, identify knowledge gaps with a systematic review of the literature, and suggest future research directions across a gradient of lake types and environmental conditions

Iaith wreiddiol	Saesneg
Tudalennau (o-i)	2756-2784
Cyfnodolyn	Global Change Biology
Cyfrol	26
Rhif cyhoeddi	5
Dyddiad ar-lein cynnar	5 Maw 2020
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.1111/gcb.15033
Statws	Cyhoeddwyd - 1 Mai 2020

NDC y CU

Mae’r allbwn hwn yn cyfrannu at y Nod(au) Datblygu Cynaliadwy canlynol

Mynediad at Ddogfen

10.1111/gcb.15033Trwydded: CC BY

Dyfynnu hyn

Stockwell, J. D., Doubek, J. P., Adrian, R., Anneville, O., Carey, C. C., Carvalho, L., Domis, L. N. D. S., Dur, G., Frassl, M. A., Grossart, H.-P., Ibelings, B. W., Lajeunesse, M. J., Lewandowska, A. M., Llames, M. E., Matsuzaki, S.-I. S., Nodine, E. R., Noges, P., Patil, V. P., Pomati, F., ... Wilson, H. L. (2020). Storm impacts on phytoplankton community dynamics in lakes. Global Change Biology, 26(5), 2756-2784. https://doi.org/10.1111/gcb.15033

@article{1cec304d707a4fe599ebf2bc02643e34,

title = "Storm impacts on phytoplankton community dynamics in lakes",

abstract = "In many regions across the globe, extreme weather events such as storms have increased in frequency, intensity, and duration due to climate change. Ecological theory predicts that such extreme events should have large impacts on ecosystem structure and function. High winds and precipitation associated with storms can affect lakes via short-term runoff events from watersheds and physical mixing of the water column. In addition, lakes connected to rivers and streams will also experience flushing due to high flow rates. Although we have a well-developed understanding of how wind and precipitation events can alter lake physical processes and some aspects of biogeochemical cycling, our mechanistic understanding of the emergent responses of phytoplankton communities is poor. Here we provide a comprehensive synthesis that identifies how storms interact with lake and watershed attributes and their antecedent conditions to generate changes in lake physical and chemical environments. Such changes can restructure phytoplankton communities and their dynamics, as well as result in altered ecological function (e.g., carbon, nutrient and energy cycling) in the short- and long-term. We summarize the current understanding of storm-induced phytoplankton dynamics, identify knowledge gaps with a systematic review of the literature, and suggest future research directions across a gradient of lake types and environmental conditions",

keywords = "climate change, environmental disturbance, extreme events, functional traits, mixing, nutrients, stability, watershed",

author = "Stockwell, \{Jason D.\} and Doubek, \{Jonathan P.\} and Rita Adrian and Orlane Anneville and Carey, \{Cayelan C.\} and Laurence Carvalho and Domis, \{Lisette N. De Senerpont\} and Gael Dur and Frassl, \{Marieke A.\} and Hans-Peter Grossart and Ibelings, \{Bas W.\} and Lajeunesse, \{Marc J.\} and Lewandowska, \{Aleksandra M.\} and Llames, \{Maria E.\} and Matsuzaki, \{Shin-Ichiro S.\} and Nodine, \{Emily R.\} and Peeter Noges and Patil, \{Vijay P.\} and Francesco Pomati and Karsten Rinke and Rudstam, \{Lars G.\} and Rusak, \{James A.\} and Nico Salmaso and Seltmann, \{Christian T.\} and Dietmar Straile and Thackeray, \{Stephen J.\} and Wim Thiery and Pablo Urrutia-Cordero and Patrick Venail and Piet Verburg and Woolway, \{R. Iestyn\} and Tamar Zohary and Andersen, \{Mikkel R.\} and Ruchi Bhattacharya and Josef Hejzlar and Nasime Janatian and Kpodonu, \{Alfred T. N. K.\} and Williamson, \{Tanner J.\} and Wilson, \{Harriet L.\}",

year = "2020",

month = may,

day = "1",

doi = "10.1111/gcb.15033",

language = "English",

volume = "26",

pages = "2756--2784",

journal = "Global Change Biology",

issn = "1354-1013",

publisher = "Wiley",

number = "5",

}

Stockwell, JD, Doubek, JP, Adrian, R, Anneville, O, Carey, CC, Carvalho, L, Domis, LNDS, Dur, G, Frassl, MA, Grossart, H-P, Ibelings, BW, Lajeunesse, MJ, Lewandowska, AM, Llames, ME, Matsuzaki, S-IS, Nodine, ER, Noges, P, Patil, VP, Pomati, F, Rinke, K, Rudstam, LG, Rusak, JA, Salmaso, N, Seltmann, CT, Straile, D, Thackeray, SJ, Thiery, W, Urrutia-Cordero, P, Venail, P, Verburg, P, Woolway, RI, Zohary, T, Andersen, MR, Bhattacharya, R, Hejzlar, J, Janatian, N, Kpodonu, ATNK, Williamson, TJ & Wilson, HL 2020, 'Storm impacts on phytoplankton community dynamics in lakes', Global Change Biology, cyfrol. 26, rhif 5, tt. 2756-2784. https://doi.org/10.1111/gcb.15033

TY - JOUR

T1 - Storm impacts on phytoplankton community dynamics in lakes

AU - Stockwell, Jason D.

AU - Doubek, Jonathan P.

AU - Adrian, Rita

AU - Anneville, Orlane

AU - Carey, Cayelan C.

AU - Carvalho, Laurence

AU - Domis, Lisette N. De Senerpont

AU - Dur, Gael

AU - Frassl, Marieke A.

AU - Grossart, Hans-Peter

AU - Ibelings, Bas W.

AU - Lajeunesse, Marc J.

AU - Lewandowska, Aleksandra M.

AU - Llames, Maria E.

AU - Matsuzaki, Shin-Ichiro S.

AU - Nodine, Emily R.

AU - Noges, Peeter

AU - Patil, Vijay P.

AU - Pomati, Francesco

AU - Rinke, Karsten

AU - Rudstam, Lars G.

AU - Rusak, James A.

AU - Salmaso, Nico

AU - Seltmann, Christian T.

AU - Straile, Dietmar

AU - Thackeray, Stephen J.

AU - Thiery, Wim

AU - Urrutia-Cordero, Pablo

AU - Venail, Patrick

AU - Verburg, Piet

AU - Woolway, R. Iestyn

AU - Zohary, Tamar

AU - Andersen, Mikkel R.

AU - Bhattacharya, Ruchi

AU - Hejzlar, Josef

AU - Janatian, Nasime

AU - Kpodonu, Alfred T. N. K.

AU - Williamson, Tanner J.

AU - Wilson, Harriet L.

PY - 2020/5/1

Y1 - 2020/5/1

N2 - In many regions across the globe, extreme weather events such as storms have increased in frequency, intensity, and duration due to climate change. Ecological theory predicts that such extreme events should have large impacts on ecosystem structure and function. High winds and precipitation associated with storms can affect lakes via short-term runoff events from watersheds and physical mixing of the water column. In addition, lakes connected to rivers and streams will also experience flushing due to high flow rates. Although we have a well-developed understanding of how wind and precipitation events can alter lake physical processes and some aspects of biogeochemical cycling, our mechanistic understanding of the emergent responses of phytoplankton communities is poor. Here we provide a comprehensive synthesis that identifies how storms interact with lake and watershed attributes and their antecedent conditions to generate changes in lake physical and chemical environments. Such changes can restructure phytoplankton communities and their dynamics, as well as result in altered ecological function (e.g., carbon, nutrient and energy cycling) in the short- and long-term. We summarize the current understanding of storm-induced phytoplankton dynamics, identify knowledge gaps with a systematic review of the literature, and suggest future research directions across a gradient of lake types and environmental conditions

AB - In many regions across the globe, extreme weather events such as storms have increased in frequency, intensity, and duration due to climate change. Ecological theory predicts that such extreme events should have large impacts on ecosystem structure and function. High winds and precipitation associated with storms can affect lakes via short-term runoff events from watersheds and physical mixing of the water column. In addition, lakes connected to rivers and streams will also experience flushing due to high flow rates. Although we have a well-developed understanding of how wind and precipitation events can alter lake physical processes and some aspects of biogeochemical cycling, our mechanistic understanding of the emergent responses of phytoplankton communities is poor. Here we provide a comprehensive synthesis that identifies how storms interact with lake and watershed attributes and their antecedent conditions to generate changes in lake physical and chemical environments. Such changes can restructure phytoplankton communities and their dynamics, as well as result in altered ecological function (e.g., carbon, nutrient and energy cycling) in the short- and long-term. We summarize the current understanding of storm-induced phytoplankton dynamics, identify knowledge gaps with a systematic review of the literature, and suggest future research directions across a gradient of lake types and environmental conditions

KW - climate change

KW - environmental disturbance

KW - extreme events

KW - functional traits

KW - mixing

KW - nutrients

KW - stability

KW - watershed

U2 - 10.1111/gcb.15033

DO - 10.1111/gcb.15033

M3 - Review article

SN - 1354-1013

VL - 26

SP - 2756

EP - 2784

JO - Global Change Biology

JF - Global Change Biology

IS - 5

ER -

Storm impacts on phytoplankton community dynamics in lakes

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