Response of radial growth of Pinus sylvestris var. mongolica of different stand ages to climate and extreme drought events in the semi-arid region of western Liaoning, Northeast China

Abstract: The frequency and severity of drought events are increasing under a changing climate, trees of different stand ages respond differently to drought events, which has a great impact on the stability of forest ecosystems. In this study, we measured radial growth (RG) in cored trees from 49 forests including young stands (20–30a) and middle-aged stands (31–50a) of Pinus sylvestris var. mongolica plantations in a semi-arid area of western Liaoning, China. We evaluated the response of RG of P. sylvestris to long-ter… Show more

“…The other limit in our study was a lack of any investigation into secondary forests. Some plantations may have been converted to secondary forests during our investigation, especially in the large areas of western Liaoning province [12]. Plantations and secondary forests should be compared in terms of the difference in their litter decomposition abilities so as to obtain a more comprehensive map of an intact provincial area.…”

“…Regional climate is a strong driver that drives changes in the environmental factors at the understory layer in local forests [12]. Cellulose decomposes at an increasing rate with the increase in soil temperature [13], a process that was supported by evidence that high soil temperatures promoted soil fauna activities and further accelerated litter decay [14].…”

Lignin and Cellulose Contents in Chinese Red Pine (Pinus tabuliformis Carr.) Plantations Varied in Stand Structure, Soil Property, and Regional Climate

“…The other limit in our study was a lack of any investigation into secondary forests. Some plantations may have been converted to secondary forests during our investigation, especially in the large areas of western Liaoning province [12]. Plantations and secondary forests should be compared in terms of the difference in their litter decomposition abilities so as to obtain a more comprehensive map of an intact provincial area.…”

“…Regional climate is a strong driver that drives changes in the environmental factors at the understory layer in local forests [12]. Cellulose decomposes at an increasing rate with the increase in soil temperature [13], a process that was supported by evidence that high soil temperatures promoted soil fauna activities and further accelerated litter decay [14].…”

Lignin and Cellulose Contents in Chinese Red Pine (Pinus tabuliformis Carr.) Plantations Varied in Stand Structure, Soil Property, and Regional Climate

Responses of Pinus sylvestris var. mongolica tree ring width to climate factors at different elevations in the northern Greater Khingan Mountains