Adaptation of the Arctic limnosystems to the climate change

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Adaptation of the Arctic limnosystems to the climate change. / Fedorova, Irina ; Shestakova, Elena ; Bobrov, Nikita ; Guzeva, Alina ; Alekseeva, Nataliya ; Pashovkina, Anastasiya ; Dvornikov, Yury A. .

2019. Abstract from 2019 AGU Fall Meeting, Сан-Франциско, United States.

Research output: Contribution to conference › Abstract › peer-review

Harvard

Fedorova, I , Shestakova, E , Bobrov, N , Guzeva, A, Alekseeva, N, Pashovkina, A & Dvornikov, YA 2019, 'Adaptation of the Arctic limnosystems to the climate change', 2019 AGU Fall Meeting, Сан-Франциско, United States, 9/12/19 - 13/12/19.

BibTeX

@conference{73c218b5950d48de872c0db2c5c95e17,

title = "Adaptation of the Arctic limnosystems to the climate change",

abstract = "Under current rapid climate change in the Arctic, especially lakes have important parameters for the ecosystems safety. Hydrological regime of a lacustrine catchment mostly is a result of talik - lake body thermic and water interaction. Flat big lake can form a new hydrographical system consisting of small lakes chain. The level of initial lake surface can be declined by thermokarst cracks; but during long time water income will be saved due to thawing permafrost and ground water inflow. Talik stores a sufficient water temperature of deep lake layers for ecosystems. So, in lakes of the Lena River delta the water temperature under 2 meters of ice thickness was 0,1-2°C and reached 23°C in summer, although hydrochemical parameters changed in a big value especially in winter. DOC, that is significant for the limnosystems, values from 4.6 to 33.7 mg/l under ice and 3.5-6.6 - in summer. αCDOM(440) in April 2018 differs in the rate of 0.91-11.16 nm-1 in winter and 0.42-5.12 - in summer. Electrical conductivity of water had value from 23 to 120 μS/cm - in summer and 140-277 - in winter.Radio dating of the top layer of lacustrine sediments gives age 2810±240 cal. kyr BP on the 35 cm of core of thermokarst lake in the Lena River Delta; the deposition rate is 0.13 mm per year. The Yamal lake had quick deposition rate of sediments: the age 145.64 ± 9.98 years (210Pb) was on the 14 cm of a core; a deposition rate - 0.89 ± 0.06 mm/year. Talik depth is about 25 m under Yakutian lake and 10 m - under Yamal lake. Therefore, in consideration of the dating and deposition rate results talik can be recognized as one of the main factors of a high resilience of Arctic lakes and is a buffer of an ecosystem: it saves a lake thermic regime, biogeochemical elements exchange as well as water income.The projects have been supported by RFBR 18-05-60291 and 19-05-00683, Resource educational center “Chemistry” and Scientific program 1 of SPBU. DOC, CDOM, nutrience analyses were done in OSL AARI.",

keywords = "Арктика, лимносистемы",

author = "Irina Fedorova and Elena Shestakova and Nikita Bobrov and Alina Guzeva and Nataliya Alekseeva and Anastasiya Pashovkina and Dvornikov, {Yury A.}",

year = "2019",

month = dec,

language = "English",

note = "null ; Conference date: 09-12-2019 Through 13-12-2019",

url = "https://www.agu.org/Fall-Meeting",

}

RIS

TY - CONF

T1 - Adaptation of the Arctic limnosystems to the climate change

AU - Fedorova, Irina

AU - Shestakova, Elena

AU - Bobrov, Nikita

AU - Guzeva, Alina

AU - Alekseeva, Nataliya

AU - Pashovkina, Anastasiya

AU - Dvornikov, Yury A.

PY - 2019/12

Y1 - 2019/12

N2 - Under current rapid climate change in the Arctic, especially lakes have important parameters for the ecosystems safety. Hydrological regime of a lacustrine catchment mostly is a result of talik - lake body thermic and water interaction. Flat big lake can form a new hydrographical system consisting of small lakes chain. The level of initial lake surface can be declined by thermokarst cracks; but during long time water income will be saved due to thawing permafrost and ground water inflow. Talik stores a sufficient water temperature of deep lake layers for ecosystems. So, in lakes of the Lena River delta the water temperature under 2 meters of ice thickness was 0,1-2°C and reached 23°C in summer, although hydrochemical parameters changed in a big value especially in winter. DOC, that is significant for the limnosystems, values from 4.6 to 33.7 mg/l under ice and 3.5-6.6 - in summer. αCDOM(440) in April 2018 differs in the rate of 0.91-11.16 nm-1 in winter and 0.42-5.12 - in summer. Electrical conductivity of water had value from 23 to 120 μS/cm - in summer and 140-277 - in winter.Radio dating of the top layer of lacustrine sediments gives age 2810±240 cal. kyr BP on the 35 cm of core of thermokarst lake in the Lena River Delta; the deposition rate is 0.13 mm per year. The Yamal lake had quick deposition rate of sediments: the age 145.64 ± 9.98 years (210Pb) was on the 14 cm of a core; a deposition rate - 0.89 ± 0.06 mm/year. Talik depth is about 25 m under Yakutian lake and 10 m - under Yamal lake. Therefore, in consideration of the dating and deposition rate results talik can be recognized as one of the main factors of a high resilience of Arctic lakes and is a buffer of an ecosystem: it saves a lake thermic regime, biogeochemical elements exchange as well as water income.The projects have been supported by RFBR 18-05-60291 and 19-05-00683, Resource educational center “Chemistry” and Scientific program 1 of SPBU. DOC, CDOM, nutrience analyses were done in OSL AARI.

AB - Under current rapid climate change in the Arctic, especially lakes have important parameters for the ecosystems safety. Hydrological regime of a lacustrine catchment mostly is a result of talik - lake body thermic and water interaction. Flat big lake can form a new hydrographical system consisting of small lakes chain. The level of initial lake surface can be declined by thermokarst cracks; but during long time water income will be saved due to thawing permafrost and ground water inflow. Talik stores a sufficient water temperature of deep lake layers for ecosystems. So, in lakes of the Lena River delta the water temperature under 2 meters of ice thickness was 0,1-2°C and reached 23°C in summer, although hydrochemical parameters changed in a big value especially in winter. DOC, that is significant for the limnosystems, values from 4.6 to 33.7 mg/l under ice and 3.5-6.6 - in summer. αCDOM(440) in April 2018 differs in the rate of 0.91-11.16 nm-1 in winter and 0.42-5.12 - in summer. Electrical conductivity of water had value from 23 to 120 μS/cm - in summer and 140-277 - in winter.Radio dating of the top layer of lacustrine sediments gives age 2810±240 cal. kyr BP on the 35 cm of core of thermokarst lake in the Lena River Delta; the deposition rate is 0.13 mm per year. The Yamal lake had quick deposition rate of sediments: the age 145.64 ± 9.98 years (210Pb) was on the 14 cm of a core; a deposition rate - 0.89 ± 0.06 mm/year. Talik depth is about 25 m under Yakutian lake and 10 m - under Yamal lake. Therefore, in consideration of the dating and deposition rate results talik can be recognized as one of the main factors of a high resilience of Arctic lakes and is a buffer of an ecosystem: it saves a lake thermic regime, biogeochemical elements exchange as well as water income.The projects have been supported by RFBR 18-05-60291 and 19-05-00683, Resource educational center “Chemistry” and Scientific program 1 of SPBU. DOC, CDOM, nutrience analyses were done in OSL AARI.

KW - Арктика

KW - лимносистемы

UR - https://agu.confex.com/agu/fm19/meetingapp.cgi/Paper/498531

UR - https://www.uspermafrost.org/2019meeting/AGU_Fall_2019_Permafrost_Related_Sessions_Final.pdf

M3 - Abstract

Y2 - 9 December 2019 through 13 December 2019

ER -

ID: 47445112