Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Decadal timescale variability in ecosystem properties in the ponds of the McMurdo Ice Shelf, southern Victoria Land, Antarctica

Decadal timescale variability in ecosystem properties in the ponds of the McMurdo Ice Shelf,... Abstract Meltwater ponds are important biodiversity elements in continental Antarctica. Many occupy closed basins and are vulnerable to changes in the balance between water accrual, through melting of ice and snow, and water loss by ablation and evaporation. We use a two-decade long record of ponds on the McMurdo Ice Shelf to assess temporal variability in key limnological variables. Ponds underwent many-fold change in biologically conservative variables, such as conductivity, and changes were similar in ponds from different catchments but of comparable area. In contrast, biologically active variables (pH, inorganic nutrients and planktonic/benthic biomass) are buffered by in-pond processes and show consistency between years and no coherence across catchments. Coherent behaviour across catchments implies an overarching, climatic effect. However, we could identify no signature of summer air temperature or irradiance in pond dynamics, although winter snow deposition may leave a legacy of low conductivity to the following summer. While ponds are clearly affected by climate, our data show that ecosystem responses are complex and highlight the need for system-appropriate, long-term observation if directional environmental change is to be separated from inherent variability in systems that respond to multiple climatic variables and which have significant biological buffering capacity. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Antarctic Science Cambridge University Press

Decadal timescale variability in ecosystem properties in the ponds of the McMurdo Ice Shelf, southern Victoria Land, Antarctica

Antarctic Science , Volume 26 (3): 12 – Aug 20, 2013
Download PDF
12 pages

Loading next page...
 
/lp/cambridge-university-press/decadal-timescale-variability-in-ecosystem-properties-in-the-ponds-of-KEaU5Xx0WF
Publisher
Cambridge University Press
Copyright
Copyright © Antarctic Science Ltd 2013 
ISSN
1365-2079
eISSN
0954-1020
DOI
10.1017/S0954102013000576
Publisher site
See Article on Publisher Site

Abstract

Abstract Meltwater ponds are important biodiversity elements in continental Antarctica. Many occupy closed basins and are vulnerable to changes in the balance between water accrual, through melting of ice and snow, and water loss by ablation and evaporation. We use a two-decade long record of ponds on the McMurdo Ice Shelf to assess temporal variability in key limnological variables. Ponds underwent many-fold change in biologically conservative variables, such as conductivity, and changes were similar in ponds from different catchments but of comparable area. In contrast, biologically active variables (pH, inorganic nutrients and planktonic/benthic biomass) are buffered by in-pond processes and show consistency between years and no coherence across catchments. Coherent behaviour across catchments implies an overarching, climatic effect. However, we could identify no signature of summer air temperature or irradiance in pond dynamics, although winter snow deposition may leave a legacy of low conductivity to the following summer. While ponds are clearly affected by climate, our data show that ecosystem responses are complex and highlight the need for system-appropriate, long-term observation if directional environmental change is to be separated from inherent variability in systems that respond to multiple climatic variables and which have significant biological buffering capacity.

Journal

Antarctic ScienceCambridge University Press

Published: Aug 20, 2013

Keywords: chlorophyll a; conductivity; nutrients; pH; pond ecosystems; temporal change

References

  • Physical hydrology of the Dry Valley lakes
  • Classification and regression trees: a powerful yet simple technique for ecological data analysis
  • A new mode of transportation by ice: the raised marine muds of south Victoria Land (Antarctica)
  • Hydrologic response to extreme warm and cold summers in the McMurdo Dry Valleys, East Antarctica
  • Antarctic climate cooling and terrestrial ecosystem response
  • Spatial and temporal patterns of snow accumulation and aerial ablation across the McMurdo Dry Valleys, Antarctica
  • Environmental controls on microbial biomass in the ponds of the McMurdo Ice Shelf, Antarctica
  • Desiccation and recovery of Antarctic cyanobacterial mats
  • Environmental conditions during freezing, and response of microbial mats in ponds of the McMurdo Ice Shelf, Antarctica
  • Summer-winter transitions in Antarctic ponds: I. The physical environment
  • Summer-winter transitions in Antarctic ponds: II. Biological responses
  • Timescales of growth response of microbial mats to environmental change in an ice-covered Antarctic lake
  • Ecological processes in Antarctic inland waters: interactions between physical processes and the nitrogen cycle
  • The environmental basis of ecosystem variability in Antarctica: research in the Latitudinal Gradient Project
  • Microbial biomass, photosynthesis and chlorophyll a related pigments in the ponds of the McMurdo Ice Shelf, Antarctica
  • Optimal nitrogen-to-phosphorus stoichiometry of phytoplankton
  • Composition and microstructure of marine ice in the Southern McMurdo Ice Shelf, Antarctica
  • The geochemistry of upland ponds, Taylor Valley, Antarctica
  • Methanol and acetone as solvents for estimation chlorophyll-a and phaeopigments by spectrophotomery
  • Twentieth century Antarctic air temperature and snowfall simulations by IPCC climate models
  • Mesoscale dynamics of ephemeral wetlands in the Antarctic dry valleys: implications to production and distribution of organic matter
  • ENSO variability in the deuterium-excess of a coastal Antarctic ice core from the McMurdo Dry Valleys, Victoria Land
  • Benthic diatom flora of freshwater and saline lakes in the Larsemann Hills and Rauer Islands, East Antarctica
  • Crossing the final ecological threshold in high Arctic ponds
  • Warming of the Antarctic ice sheet surface since the 1957 International Geophysical Year
  • Biogeographical distribution and ecological ranges of benthic cyanobacteria in East Antarctic lakes
  • Antarctic climate change during the last 50 years
  • Chemical limnology in coastal East Antarctic lakes: monitoring future climate change in centres of endemism and biodiversity
  • Microbial ecosystem responses to rapid climate change in the Arctic
  • Biodiversity in extreme aquatic environments: lakes, ponds and streams of the Ross Sea sector, Antarctica
  • Chemistry and stratification of Antarctic meltwater ponds. I: Coastal ponds near Bratina Island, McMurdo Ice Shelf
  • The biogeochemistry of meltwater habitats in the Darwin Glacier region (Lat 80°S), Victoria Land, Antarctica
  • Changes in ice cover thickness and lake level of Lake Hoare, Antarctica: implications for local climate change