APA
Rosner S., Světlík J., Andreassen K., Børja I., Dalsgaard L., Evans R., Luss S., Tveito O. E. & Solberg S. (20160704). Novel Hydraulic Vulnerability Proxies for a Boreal Conifer Species Reveal That Opportunists May Have Lower Survival Prospects under Extreme Climatic Events. : Frontiers in plant science.
Chicago
Rosner Sabine, Světlík Jan, Andreassen Kjell, Børja Isabella, Dalsgaard Lise, Evans Robert, Luss Saskia, Tveito Ole E and Solberg Svein. 20160704. Novel Hydraulic Vulnerability Proxies for a Boreal Conifer Species Reveal That Opportunists May Have Lower Survival Prospects under Extreme Climatic Events. : Frontiers in plant science.
Harvard
Rosner S., Světlík J., Andreassen K., Børja I., Dalsgaard L., Evans R., Luss S., Tveito O. E. and Solberg S. (20160704). Novel Hydraulic Vulnerability Proxies for a Boreal Conifer Species Reveal That Opportunists May Have Lower Survival Prospects under Extreme Climatic Events. : Frontiers in plant science.
MLA
Rosner Sabine, Světlík Jan, Andreassen Kjell, Børja Isabella, Dalsgaard Lise, Evans Robert, Luss Saskia, Tveito Ole E and Solberg Svein. Novel Hydraulic Vulnerability Proxies for a Boreal Conifer Species Reveal That Opportunists May Have Lower Survival Prospects under Extreme Climatic Events. : Frontiers in plant science. 20160704.