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T1  - Habitat patchiness, ecological connectivity and the uneven recovery of boreal stream ecosystems from an experimental drought 
SN  -  / 1354-1013 
UR  - http://hdl.handle.net/10138/338047 
T3  - Global Change Biology 26 6 (2020) 
A1  - Truchy, Amélie; Sarremejane, Romain; Muotka, Timo; Mykrä, Heikki; Angeler, David G.; Lehosmaa, Kaisa; Huusko, Ari; Johnson, Richard K.; Sponseller, Ryan A.; McKie, Brendan G. 
A2  -  
PB  - Wiley 
Y1  - 2020 
LA  - en 
AB  - Ongoing climate change is increasing the occurrence and intensity of drought episodes worldwide, including in boreal regions not previously regarded as drought prone, and where the impacts of drought remain poorly understood. Ecological connectivity is one factor that might influence community structure and ecosystem functioning post-drought, by facilitating the recovery of sensitive species via dispersal at both local (e.g. a nearby habitat patch) and regional (from other systems within the sam... 
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KW  - dryness; drought; ecosystem processes; algal production; meta; detritivores; habitat patch; hyphomycete fungi; metaecosystem; spatial connectivity; ecosystems (ecology); climate changes; aquatic ecosystems; biotic communities; nutrient cycle; marine ecology; algae; zoobenthos; nutrients (plants); biodiversity; environmental changes; boreal zone; accrual; kuivuus; ekosysteemin prosessit; levätuotanto; meta; detritivoret; elinympäristön paikkaus; hyphomycete sieni; metaekosysteemi; avaruudelliset verkkoyhteydet; ekosysteemit (ekologia); ilmastonmuutokset; vesiekosysteemit; eliöyhteisöt; ravinnekierto; meriekologia; levät; pohjaeläimistö; ravinteet; biodiversiteetti; ympäristönmuutokset; boreaalinen vyöhyke; kertyminen 
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