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@proceedings{1209793, author = {Pařil, Petr and Zahrádková, Světlana and Polášek, Marek and Syrovátka, Vít and Straka, Michal and Šikulová, Lenka and Němejcová, Denisa and Řezníčková, Pavla}, booktitle = {6th EGU Leonardo conference HYPERDROUGHTS, Prague, 13-14 November 2014}, keywords = {dryiing up of streams; bioindication; risk maps; aquatic macroinvertebrates}, language = {eng}, title = {BIODROUGHT project – developing effective tools for retrospective bioindication of dry episodes in stream history and selection of watersheds with drought risk using aquatic macroinvertebrates}, year = {2014} }
TY - CONF ID - 1209793 AU - Pařil, Petr - Zahrádková, Světlana - Polášek, Marek - Syrovátka, Vít - Straka, Michal - Šikulová, Lenka - Němejcová, Denisa - Řezníčková, Pavla PY - 2014 TI - BIODROUGHT project – developing effective tools for retrospective bioindication of dry episodes in stream history and selection of watersheds with drought risk using aquatic macroinvertebrates KW - dryiing up of streams KW - bioindication KW - risk maps KW - aquatic macroinvertebrates N2 - Climate change has brought remarkable changes in hydrological regime over the last decades and causes consequent periodical drying out of water-courses(meant as the absence of surface flow)not only in the Mediterranean but also in Central Europe where the percentage of annually drying up small streams has increased remarkably.Increasing stream intermittency in this region is probably associated with changes in the distribution of precipitation and higher evapotranspiration during the season,and also with hydrological alterations of anthropogenic origin.Regardless of the cause of drying up of small water-courses,we use the analysis of aquatic macroinvertebrate community as an effective tool for the detection of dry periods in stream’s recent history.The main expected project outcomes include(i)risk maps assessing stream vulnerability to drought and(ii)a bioindication method evaluating the presence and possibly the extent of dry periods with a defined probability rate.Due to lack of long term data for the evaluation of drought-related impacts on the macroinvertebrate community structure in the Central Europe,we analyzed data from the Czech state monitoring database SALAMANDER(1996-2010)and our own data collected within the BIODROUGHT project(2012-2015),www.biodrought.eu.We preclude that drought acts as an ecological filter which leaves its“footprint”in macroinvertebrate community structure for a certain time period and the structural changes in species composition and representation of species traits correspond with the spatial and temporal extent of drought impairment.While the drought sensitive taxa(permanency indicators)are depleted,the proportion of advantageous traits and drought resistant taxa or good colonizers increases and stays on higher level for a specific time period after stream re-flooding.We want to incorporate traditional and frequently used macroinvertebrate based indices(e.g.saprobic index) in drought indication,but also new metrics are tested. ER -
PAŘIL, Petr, Světlana ZAHRÁDKOVÁ, Marek POLÁŠEK, Vít SYROVÁTKA, Michal STRAKA, Lenka ŠIKULOVÁ, Denisa NĚMEJCOVÁ and Pavla ŘEZNÍČKOVÁ. BIODROUGHT project – developing effective tools for retrospective bioindication of dry episodes in stream history and selection of watersheds with drought risk using aquatic macroinvertebrates. In \textit{6th EGU Leonardo conference HYPERDROUGHTS, Prague, 13-14 November 2014}. 2014.
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