Species-specific drought resilience in juniper and fir forests in the central Himalayas

• Published in: Ecological indicators Vol. 117; p. 106615
• Main Authors: Fang, Ouya, Qiu, Hongyan, Zhang, Qi-Bin
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.10.2020
• Subjects: Abies; Abies spectabilis; climate; drought; forest management; forests; Himalayan region; Iso/anisohydry; isotopes; Juniperus; Juniperus tibetica; Oxygen isotope; Recovery; Resistance; stomatal movement; Tibetan plateau; Himalayan region; Resistance; Juniperus tibetica; Iso/anisohydry; Abies spectabilis; Oxygen isotope; Tibetan plateau; Recovery
• ISSN: 1470-160X; 1872-7034
• DOI: 10.1016/j.ecolind.2020.106615

•Juniperus tibetica and Abies spectabilis trees showed different resilience to drought extremes in the past two hundred years.•Trees’ iso/anisohydric strategies of stomatal regulation might play a role in their resilience against droughts.•Abies spectabilis showed higher resistance than Juniperus tibetica in the twentieth century. With increased frequency and intensity of drought occurrence in the changing climate, the drought resilience of forest trees is of widespread interest. Particularly, it is not clear as to how the resilience differs between tree species and whether or not such resilience changes over time. Understanding tree resilience to drought requires observations not only from recent events but also from the historical past, information of which is usually hardly available. Here we defined historical drought based on isotope data and compared drought resilience in Juniperus tibetica and Abies spectabilis forest in the central Himalayas in five extreme droughts during the past two centuries. We found that juniper trees had a stronger resistance than fir trees in the three extreme droughts in the nineteenth century but this pattern reversed in the two drought events in the twentieth century. The length of response time to droughts and recovery time to pre-drought state were shorter in juniper trees than in fir trees. The proportion of declining trees showed a decreasing trend in fir trees but not in juniper trees. Our results indicate that the species-specific resilience might be related to the anisohydric (junipers) and isohydric (firs) strategies of stomatal regulation in response to droughts plants. The differences in species-specific drought resilience should be taken into account when developing forest management policies against the influence of extreme droughts in future.