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T1  - Site fertility drives temporal turnover of vegetation at high latitudes 
SN  -  /  
UR  - http://hdl.handle.net/10138/308613 
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A1  - Maliniemi, Tuija; Happonen, Konsta; Virtanen, Risto 
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PB  -  
Y1  - 2019 
LA  - eng 
AB  - Experimental evidence shows that site fertility is a key modulator underlying plant community changes under climate change. Communities on fertile sites, with species having fast dynamics, have been found to react more strongly to climate change than communities on infertile sites with slow dynamics. However, it is still unclear whether this generally applies to high-latitude plant communities in natural environments at broad spatial scales. We tested a hypothesis that vegetation of fertile site... 
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KW  - 1181 Ecology, evolutionary biology; community stability; dynamic macroecology; long-term research; plant community; plant strategies; site fertility; vegetation resurvey; FLORA; CLIMATE-CHANGE; HOMOGENIZATION; TUNDRA; FORESTS; RESPONSES; PLANT-COMMUNITIES; BRYOPHYTES; NITROGEN DEPOSITION; RESISTANCE 
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