Sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes

Dissolved organic carbon (DOC) is a key regulator of aquatic ecosystems, and the primary substrate for aquatic bacteria. However, variations in function between different DOC sources are rarely studied. Arctic Mackenzie Delta lakes exhibit striking differences in DOC composition, with DOC sources ra...

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Bibliographic Details
Main Author: Tank, Suzanne Elizabeth
Format: Thesis
Language:English
Published: 2009
Subjects:
Arctic
Mackenzie Delta
permafrost
Thermokarst
Zooplankton
Online Access:http://summit.sfu.ca/item/9534
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spelling ftsimonfu:oai:summit.sfu.ca:9534 2023-05-15T15:04:51+02:00 Sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes Tank, Suzanne Elizabeth 2009 http://summit.sfu.ca/item/9534 English eng http://summit.sfu.ca/item/9534 Thesis 2009 ftsimonfu 2022-04-07T18:36:37Z Dissolved organic carbon (DOC) is a key regulator of aquatic ecosystems, and the primary substrate for aquatic bacteria. However, variations in function between different DOC sources are rarely studied. Arctic Mackenzie Delta lakes exhibit striking differences in DOC composition, with DOC sources ranging from C produced as a byproduct of aquatic plant (macrophyte) photosynthesis, to C derived from permafrost melting (thermokarst), and C delivered to lakes via river-water. This study assessed how variations in DOC source regulate the composition of the within-lake pool, drive bacterial metabolism and the contribution of bacterial biomass to higher trophic levels, and affect CO2 flux from Delta lakes. DOC-specific tracers showed macrophyte-derived DOC to comprise less than 15% of the DOC pool in macrophyte-rich lakes, despite macrophyte C levels 7-12-fold greater than total DOC. However, bacterial δ13C indicated that bacteria preferentially incorporate DOC generated by macrophytes, while surveys and incubation experiments showed that bacterial metabolism is rapid on macrophytic DOC, with high rates of bacterial biomass production relative to respiratory loss as CO2. Accordingly, δ13C, δ15N, and fatty acid biomarkers demonstrated that zooplankton from macrophyte-rich lakes receive a greater proportion of their biomass from bacterial organic matter than zooplankton from other lake types. At the same time, however, experiments indicated that the high pH resulting from rapid photosynthesis in macrophyte-rich lakes can decrease the rate of bacterial metabolism over the short-term, and increase CO2 respiration at the expense of bacterial biomass production. In contrast, DOC-specific tracers indicated that thermokarst-derived DOC accumulates in lakes. Incubation experiments and in situ surveys revealed thermokarst DOC to be a relatively poor bacterial substrate, which resulted in proportionately more CO2 respiration, relative to bacterial biomass production, than observed for other Delta DOC sources. Moreover, multi-year surveys demonstrated that thermokarst lakes exhibit high levels of CO2 emission, despite clear undersaturation in other lakes, presumably because permafrost-derived DOC was largely respired by bacteria. Understanding the divergent roles played by the contrasting sources of DOC to Delta lakes both adds insight to the functioning of other lake regions, globally, and helps clarify the effect of climate-induced changes in DOC on northern lakes. Thesis Arctic Mackenzie Delta permafrost Thermokarst Zooplankton Summit - SFU Research Repository (Simon Fraser University) Arctic Mackenzie Delta ENVELOPE(-136.672,-136.672,68.833,68.833)
institution Open Polar
collection Summit - SFU Research Repository (Simon Fraser University)
op_collection_id ftsimonfu
language English
description Dissolved organic carbon (DOC) is a key regulator of aquatic ecosystems, and the primary substrate for aquatic bacteria. However, variations in function between different DOC sources are rarely studied. Arctic Mackenzie Delta lakes exhibit striking differences in DOC composition, with DOC sources ranging from C produced as a byproduct of aquatic plant (macrophyte) photosynthesis, to C derived from permafrost melting (thermokarst), and C delivered to lakes via river-water. This study assessed how variations in DOC source regulate the composition of the within-lake pool, drive bacterial metabolism and the contribution of bacterial biomass to higher trophic levels, and affect CO2 flux from Delta lakes. DOC-specific tracers showed macrophyte-derived DOC to comprise less than 15% of the DOC pool in macrophyte-rich lakes, despite macrophyte C levels 7-12-fold greater than total DOC. However, bacterial δ13C indicated that bacteria preferentially incorporate DOC generated by macrophytes, while surveys and incubation experiments showed that bacterial metabolism is rapid on macrophytic DOC, with high rates of bacterial biomass production relative to respiratory loss as CO2. Accordingly, δ13C, δ15N, and fatty acid biomarkers demonstrated that zooplankton from macrophyte-rich lakes receive a greater proportion of their biomass from bacterial organic matter than zooplankton from other lake types. At the same time, however, experiments indicated that the high pH resulting from rapid photosynthesis in macrophyte-rich lakes can decrease the rate of bacterial metabolism over the short-term, and increase CO2 respiration at the expense of bacterial biomass production. In contrast, DOC-specific tracers indicated that thermokarst-derived DOC accumulates in lakes. Incubation experiments and in situ surveys revealed thermokarst DOC to be a relatively poor bacterial substrate, which resulted in proportionately more CO2 respiration, relative to bacterial biomass production, than observed for other Delta DOC sources. Moreover, multi-year surveys demonstrated that thermokarst lakes exhibit high levels of CO2 emission, despite clear undersaturation in other lakes, presumably because permafrost-derived DOC was largely respired by bacteria. Understanding the divergent roles played by the contrasting sources of DOC to Delta lakes both adds insight to the functioning of other lake regions, globally, and helps clarify the effect of climate-induced changes in DOC on northern lakes.
format Thesis
author Tank, Suzanne Elizabeth
spellingShingle Tank, Suzanne Elizabeth
Sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes
author_facet Tank, Suzanne Elizabeth
author_sort Tank, Suzanne Elizabeth
title Sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes
title_short Sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes
title_full Sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes
title_fullStr Sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes
title_full_unstemmed Sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes
title_sort sources and cycling of dissolved organic carbon across a landscape of arctic delta lakes
publishDate 2009
url http://summit.sfu.ca/item/9534
long_lat ENVELOPE(-136.672,-136.672,68.833,68.833)
geographic Arctic
Mackenzie Delta
geographic_facet Arctic
Mackenzie Delta
genre Arctic
Mackenzie Delta
permafrost
Thermokarst
Zooplankton
genre_facet Arctic
Mackenzie Delta
permafrost
Thermokarst
Zooplankton
op_relation http://summit.sfu.ca/item/9534
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