Five decades of terrestrial and freshwater research at Ny-?lesund, Svalbard

For more than five decades, research has been conducted at Ny-Alesund, in Svalbard, Norway, to understand the structure and functioning of High Arctic ecosystems and the profound impacts on them of environmental change. Terrestrial, freshwater, glacial and marine ecosystems are accessible year-round...

Full description

Bibliographic Details
Published in:Polar Research
Main Authors: Pedersen, A. O., Convey, P., Newsham, K. K., Mosbacher, J. B., Fuglei, E., Ravolainen, V, Hansen, B. B., Jensen, T. C., Augusti, A., Biersma, E. M., Cooper, E. J., Coulson, S. J., Gabrielsen, G. W., Gallet, J. C., Karsten, U., Kristiansen, S. M., Svenning, M. M., Tveit, A. T., Uchida, M., Baneschi, I, Calizza, E., Cannone, N., de Goede, E. M., Doveri, M., Elster, J., Giamberini, M. S., Hayashi, K., Lang, S., Lee, Y. K., Nakatsubo, T., Pasquali, V, Paulsen, I. M. G., Pedersen, C., Peng, F., Provenzale, A., Pushkareva, E., Sandstrom, C. A. M., Sklet, V, Stach, A., Tojo, M., Tytgat, Bjorn, Tommervik, H., Velazquez, D., Verleyen, Elie, Welker, J. M., Yao, Y-F, Loonen, M. J. J. E.
Format: Article in Journal/Newspaper
Language:English
Published: Open Academia AB 2022
Subjects:
Earth and Environmental Sciences
HIGH-ARCTIC TUNDRA
SIMULATED ENVIRONMENTAL-CHANGE
POLYCHLORINATED-BIPHENYLS PCBS
SUCCESSIONAL GLACIER FORELAND
CARBON-ISOTOPE DISCRIMINATION
SOIL MICROBIAL SUCCESSION
CHEMICAL
DENUDATION RATES
ORGANIC POLLUTANTS POPS
GEESE BRANTA LEUCOPSIS
WILLOW SALIX-POLARIS
Biogeochemical cycles
climate change
ecosystem structure and
functioning
environmental change
High Arctic
human impacts
soil
Arctic
Svalbard
Norway
Lesund
Branta leucopsis
Climate change
glacier
Polar Research
Salix polaris
Tundra
Online Access:https://biblio.ugent.be/publication/01H2SWDDRCF8PZABK0T2MNC58C
http://hdl.handle.net/1854/LU-01H2SWDDRCF8PZABK0T2MNC58C
https://doi.org/10.33265/polar.v41.6310
https://biblio.ugent.be/publication/01H2SWDDRCF8PZABK0T2MNC58C/file/01H2SXG0535QBG9T7HAK9P4GC8
Description
Summary:For more than five decades, research has been conducted at Ny-Alesund, in Svalbard, Norway, to understand the structure and functioning of High Arctic ecosystems and the profound impacts on them of environmental change. Terrestrial, freshwater, glacial and marine ecosystems are accessible year-round from Ny-Alesund, providing unique opportunities for interdisciplinary observational and experimental studies along physical, chemical, hydrological and climatic gradients. Here, we synthesize terrestrial and freshwater research at Ny-Alesund and review current knowledge of biodiversity patterns, species population dynamics and interactions, ecosystem processes, biogeochemical cycles and anthropogenic impacts. There is now strong evidence of past and ongoing biotic changes caused by climate change, including negative effects on populations of many taxa and impacts of rain-on-snow events across multiple trophic levels. While species-level characteristics and responses are well understood for macro-organisms, major knowledge gaps exist for microbes, invertebrates and ecosystem-level processes. In order to fill current knowledge gaps, we recommend (1) maintaining monitoring efforts, while establishing a longterm ecosystem-based monitoring programme; (2) gaining a mechanistic understanding of environmental change impacts on processes and linkages in food webs; (3) identifying trophic interactions and cascades across ecosystems; and (4) integrating long-term data on microbial, invertebrate and freshwater communities, along with measurements of carbon and nutrient fluxes among soils, atmosphere, freshwaters and the marine environment. The synthesis here shows that the Ny-Alesund study system has the characteristics needed to fill these gaps in knowledge, thereby enhancing our understanding of High-Arctic ecosystems and their responses to environmental variability and change.

Similar Items