Coupling between primary terrestrial succession and the trophic development of lakes at Glacier Bay, Alaska
The natural eutrophication of lakes is still an accepted concept in limnology, arising as it does from the earliest efforts to classify lakes and place them in an evolutionary sequence. Recent studies of newly formed lakes at Glacier Bay, Alaska, only partially support this idea, and suggest more va...
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ftunivnebraskali:oai:digitalcommons.unl.edu:geosciencefacpub-1025 2023-11-12T04:17:23+01:00 Coupling between primary terrestrial succession and the trophic development of lakes at Glacier Bay, Alaska Engstrom, D. R. Fritz, Sherilyn C. 2006-01-01T08:00:00Z application/pdf https://digitalcommons.unl.edu/geosciencefacpub/26 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1025/viewcontent/Fritz_JP_2006_Coupling__DC_VERSION__optimized.pdf unknown DigitalCommons@University of Nebraska - Lincoln https://digitalcommons.unl.edu/geosciencefacpub/26 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1025/viewcontent/Fritz_JP_2006_Coupling__DC_VERSION__optimized.pdf Papers in the Earth and Atmospheric Sciences diatom accumulation Glacier Bay lake ontogeny nitrogen primary production primary succession Earth Sciences text 2006 ftunivnebraskali 2023-10-30T10:22:13Z The natural eutrophication of lakes is still an accepted concept in limnology, arising as it does from the earliest efforts to classify lakes and place them in an evolutionary sequence. Recent studies of newly formed lakes at Glacier Bay, Alaska, only partially support this idea, and suggest more variable trends in lake trophic development which are under local (catchment-level) control. Here we use sediment cores from several lakes in Glacier Bay National Park to examine the relationship between successional changes in catchment vegetation and trends in water-column nitrogen (a limiting nutrient) and lake primary production. Terrestrial succession at Glacier Bay follows several different pathways, with older sites in the lower bay being colonized directly by spruce (Picea) and by-passing a prolonged alder (Alnus) stage that characterizes younger upper-bay sites. Sediment cores from three sites spanning this successional gradient demonstrate that the variability in nitrogen trends among lakes is a consequence of the establishment and duration of N-fixing alder in the lake catchment. In the lower-bay lakes, diatom-inferred nitrogen concentrations rise and then fall in concert with the transient appearance of alder in the catchment, while in the upper bay, high nitrogen concentrations are sustained by the continuous dominance of alder. Diatom accumulation, a proxy for whole-lake biological productivity, increases steadily at all three sites during the first century following lake formation, but declines in more recent times at the lower-bay sites in apparent response to the disappearance of alder and decreasing lake-water nitrogen. These results demonstrate a tight biogeochemical coupling between terrestrial succession and lake trophic change during the early developmental history of Glacier Bay lakes. Text glacier Alaska University of Nebraska-Lincoln: DigitalCommons@UNL Glacier Bay Lower Bay ENVELOPE(-97.817,-97.817,58.821,58.821) Bay Lake ENVELOPE(-100.964,-100.964,56.759,56.759) |
| institution |
Open Polar |
| collection |
University of Nebraska-Lincoln: DigitalCommons@UNL |
| op_collection_id |
ftunivnebraskali |
| language |
unknown |
| topic |
diatom accumulation Glacier Bay lake ontogeny nitrogen primary production primary succession Earth Sciences |
| spellingShingle |
diatom accumulation Glacier Bay lake ontogeny nitrogen primary production primary succession Earth Sciences Engstrom, D. R. Fritz, Sherilyn C. Coupling between primary terrestrial succession and the trophic development of lakes at Glacier Bay, Alaska |
| topic_facet |
diatom accumulation Glacier Bay lake ontogeny nitrogen primary production primary succession Earth Sciences |
| description |
The natural eutrophication of lakes is still an accepted concept in limnology, arising as it does from the earliest efforts to classify lakes and place them in an evolutionary sequence. Recent studies of newly formed lakes at Glacier Bay, Alaska, only partially support this idea, and suggest more variable trends in lake trophic development which are under local (catchment-level) control. Here we use sediment cores from several lakes in Glacier Bay National Park to examine the relationship between successional changes in catchment vegetation and trends in water-column nitrogen (a limiting nutrient) and lake primary production. Terrestrial succession at Glacier Bay follows several different pathways, with older sites in the lower bay being colonized directly by spruce (Picea) and by-passing a prolonged alder (Alnus) stage that characterizes younger upper-bay sites. Sediment cores from three sites spanning this successional gradient demonstrate that the variability in nitrogen trends among lakes is a consequence of the establishment and duration of N-fixing alder in the lake catchment. In the lower-bay lakes, diatom-inferred nitrogen concentrations rise and then fall in concert with the transient appearance of alder in the catchment, while in the upper bay, high nitrogen concentrations are sustained by the continuous dominance of alder. Diatom accumulation, a proxy for whole-lake biological productivity, increases steadily at all three sites during the first century following lake formation, but declines in more recent times at the lower-bay sites in apparent response to the disappearance of alder and decreasing lake-water nitrogen. These results demonstrate a tight biogeochemical coupling between terrestrial succession and lake trophic change during the early developmental history of Glacier Bay lakes. |
| format |
Text |
| author |
Engstrom, D. R. Fritz, Sherilyn C. |
| author_facet |
Engstrom, D. R. Fritz, Sherilyn C. |
| author_sort |
Engstrom, D. R. |
| title |
Coupling between primary terrestrial succession and the trophic development of lakes at Glacier Bay, Alaska |
| title_short |
Coupling between primary terrestrial succession and the trophic development of lakes at Glacier Bay, Alaska |
| title_full |
Coupling between primary terrestrial succession and the trophic development of lakes at Glacier Bay, Alaska |
| title_fullStr |
Coupling between primary terrestrial succession and the trophic development of lakes at Glacier Bay, Alaska |
| title_full_unstemmed |
Coupling between primary terrestrial succession and the trophic development of lakes at Glacier Bay, Alaska |
| title_sort |
coupling between primary terrestrial succession and the trophic development of lakes at glacier bay, alaska |
| publisher |
DigitalCommons@University of Nebraska - Lincoln |
| publishDate |
2006 |
| url |
https://digitalcommons.unl.edu/geosciencefacpub/26 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1025/viewcontent/Fritz_JP_2006_Coupling__DC_VERSION__optimized.pdf |
| long_lat |
ENVELOPE(-97.817,-97.817,58.821,58.821) ENVELOPE(-100.964,-100.964,56.759,56.759) |
| geographic |
Glacier Bay Lower Bay Bay Lake |
| geographic_facet |
Glacier Bay Lower Bay Bay Lake |
| genre |
glacier Alaska |
| genre_facet |
glacier Alaska |
| op_source |
Papers in the Earth and Atmospheric Sciences |
| op_relation |
https://digitalcommons.unl.edu/geosciencefacpub/26 https://digitalcommons.unl.edu/context/geosciencefacpub/article/1025/viewcontent/Fritz_JP_2006_Coupling__DC_VERSION__optimized.pdf |
| _version_ |
1782334305075200000 |