JpGU-AGU Joint Meeting 2017

講演情報

[EE] ポスター発表

セッション記号 M (領域外・複数領域) » M-IS ジョイント

[M-IS01] [EE] Environmental, socio-economic and climatic changes in Northern Eurasia

2017年5月20日(土) 10:45 〜 12:15 ポスター会場 (国際展示場 7ホール)

コンビーナ:Groisman Pavel(NC State University Research Scholar at NOAA National Centers for Environmental Information, Asheville, North Carolina, USA)、Shamil Maksyutov(National Institute for Environmental Studies)、Kukavskaya Elena(VN Sukachev Institute of Forest, Siberian Branch of Russian Academy of Sciences)、Qiuhong Tang(Institute of Geographic Sciences and Natural Resources Research, CAS)

[MIS01-P11] Climate change and water sources in Arctic streams; effects on physiochemical variables and biotic communities.

*Milner Alexander1Blaen Philip J. 1Docherty Catherine L.1Brown Lee E2Khamis Kieran1Hannah David M.1 (1.University of Birmingham, UK、2.University of Leeds, Leeds, UK)

In Arctic regions climatic change is modifying the relative contributions and temporal dynamics of water sources (rainfall, ice-melt, snowmelt, and groundwater) to river flow. These changes will have significant implications for physicochemical habitat and associated biotic communities. Aquatic systems downstream of glaciers may shift from one of a deterministic nature to one with greater stochasticity, both in terms of their physicochemical variables, associated biological communities and functional trait composition. Nutrient uptake experiments in Svalbard streams indicated most rivers exhibited a low demand for NO3 and PO4 but demand for NH4 and acetate was more variable and in several rivers comparable to sub-Arctic regions. Similar experiments in northeast Greenland showed NH4 and acetate were the highest in demand but uptake was low compared to Svalbard and other Arctic and sub-Arctic regions. However, diffusing substrate experiments in Greenland streams showed highest primary productivity when NH4 and PO4 were added simultaneously, with autotrophic community productivity increasing more than that in heterotrophic communities. These data suggest NH4 retention and uptake may be facilitated by labile dissolved organic carbon availability in these streams, which may increase with climate change with release from permafrost. Evidence from a number of Arctic and also alpine studies indicates reductions in glacial meltwater runoff are expected to drive an overall increase in local alpha diversity and abundance, but a decrease in regional diversity and rareness as specialist cold water taxa become extinct. Our understanding of potential ecological tipping points and associated indicator taxa is limited but data from a number of regions have identified threshold changes in community composition of stream taxa at <5.1% glacier cover and <66.6% meltwater contribution. An unexpected impact of glacier volume loss has been the liberation of contaminants, including pesticides and other persistent organic pollutants, from the early industrial revolution and onwards. A recent concern has been regarding uncertainty in how climate change is shifting these contaminants from glacial stores to other ecosystems, with potential detrimental effects.