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The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea. / Khaitov, Vadim; Lentsman, Natalia V.

в: Hydrobiologia, Том 781, № 1, 2016, стр. 161-180.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Khaitov, V & Lentsman, NV 2016, 'The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea', Hydrobiologia, Том. 781, № 1, стр. 161-180. https://doi.org/10.1007/s10750-016-2837-0

APA

Khaitov, V., & Lentsman, N. V. (2016). The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea. Hydrobiologia, 781(1), 161-180. https://doi.org/10.1007/s10750-016-2837-0

Vancouver

Khaitov V, Lentsman NV. The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea. Hydrobiologia. 2016;781(1):161-180. https://doi.org/10.1007/s10750-016-2837-0

Author

Khaitov, Vadim ; Lentsman, Natalia V. / The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea. в: Hydrobiologia. 2016 ; Том 781, № 1. стр. 161-180.

BibTeX

@article{c6aad67a0b43404eb69c1db7696f5a70,
title = "The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea",
abstract = "Dense blue mussel assemblages are unstable, their structure changing from year to year. Three types of models can be used to describe this instability: (1) “exogenous” model based on regional temperature fluctuations, (2) “endogenous” deterministic model associated with negative impact of adult mussels on juveniles and (3) “density-linked stochasticity” model based on positive feedbacks resulting in overcrowding and destabilizing the settlement. We compared predictions deduced from these models with a time series based on the results of long-term (18 years) monitoring of abundance and demographic structure of three mussel beds at the White Sea. Most of our findings agreed well with the predictions deduced from the endogenous model. In particular, (1) long-term changes in mussel abundance and demographic structure were strictly cyclic, with non-matching periods (5–9 years) at different sites; (2) stages with the dominance of old mussels alternated with those where juveniles dominated and (3) some signals of de",
keywords = "MytilusMussel bedsPopulation dynamicsLong-term changes",
author = "Vadim Khaitov and Lentsman, {Natalia V.}",
note = "Khaitov, V. M., & Lentsman, N. V. (2016). The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea. hydrobiologia, 781(1), 161-180.",
year = "2016",
doi = "https://doi.org/10.1007/s10750-016-2837-0",
language = "English",
volume = "781",
pages = "161--180",
journal = "Hydrobiologia",
issn = "0018-8158",
publisher = "Springer Nature",
number = "1",

}

RIS

TY - JOUR

T1 - The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea

AU - Khaitov, Vadim

AU - Lentsman, Natalia V.

N1 - Khaitov, V. M., & Lentsman, N. V. (2016). The cycle of mussels: long-term dynamics of mussel beds on intertidal soft bottoms at the White Sea. hydrobiologia, 781(1), 161-180.

PY - 2016

Y1 - 2016

N2 - Dense blue mussel assemblages are unstable, their structure changing from year to year. Three types of models can be used to describe this instability: (1) “exogenous” model based on regional temperature fluctuations, (2) “endogenous” deterministic model associated with negative impact of adult mussels on juveniles and (3) “density-linked stochasticity” model based on positive feedbacks resulting in overcrowding and destabilizing the settlement. We compared predictions deduced from these models with a time series based on the results of long-term (18 years) monitoring of abundance and demographic structure of three mussel beds at the White Sea. Most of our findings agreed well with the predictions deduced from the endogenous model. In particular, (1) long-term changes in mussel abundance and demographic structure were strictly cyclic, with non-matching periods (5–9 years) at different sites; (2) stages with the dominance of old mussels alternated with those where juveniles dominated and (3) some signals of de

AB - Dense blue mussel assemblages are unstable, their structure changing from year to year. Three types of models can be used to describe this instability: (1) “exogenous” model based on regional temperature fluctuations, (2) “endogenous” deterministic model associated with negative impact of adult mussels on juveniles and (3) “density-linked stochasticity” model based on positive feedbacks resulting in overcrowding and destabilizing the settlement. We compared predictions deduced from these models with a time series based on the results of long-term (18 years) monitoring of abundance and demographic structure of three mussel beds at the White Sea. Most of our findings agreed well with the predictions deduced from the endogenous model. In particular, (1) long-term changes in mussel abundance and demographic structure were strictly cyclic, with non-matching periods (5–9 years) at different sites; (2) stages with the dominance of old mussels alternated with those where juveniles dominated and (3) some signals of de

KW - MytilusMussel bedsPopulation dynamicsLong-term changes

U2 - https://doi.org/10.1007/s10750-016-2837-0

DO - https://doi.org/10.1007/s10750-016-2837-0

M3 - Article

VL - 781

SP - 161

EP - 180

JO - Hydrobiologia

JF - Hydrobiologia

SN - 0018-8158

IS - 1

ER -

ID: 7593502