WATER-USE EFFICIENCY
; GLOBAL-CHANGE DRIVERS
; RADIAL GROWTH
; ELEVATED CO2
; FOREST TREES
; RING GROWTH
; ENHANCEMENT
; VARIABILITY
; SENSITIVITY
; DROUGHT
WOS学科分类:
Forestry
WOS研究方向:
Forestry
英文摘要:
Forests play an important role in water and carbon cycles in semiarid regions such as the Mediterranean ecosystems. Previous research in the Chilean Mediterranean forests revealed a break point in 1980 in regional tree-ring chronologies linked to climate change. However, it is still unclear which populations and age classes are more affected by recent increases in drought conditions. In this study, we investigated the influence of recent variations in precipitation, temperature, and CO2 concentrations on tree growth of various populations and age classes of Nothofagus macrocarpa trees in Central Chile. We sampled 10 populations from five sites of N. macrocarpa through its whole geographic distribution in both Coastal and Andes ranges. We used standard dendrochronological methods to (i) group populations using principal component analysis, (ii) separate age classes (young, mature, and old trees), (iii) evaluate linear growth trends based on the basal area increment (BAI), and (iv) analyze the link between BAI and atmospheric changes using linear mixed-effects models. Results showed that young trees are more sensitive to climate variability. Regarding population grouping, we observed that all population clusters were sensitive to winter-spring precipitation, but only the Andes and Coastal populations were negatively correlated with temperature. The results of CO2 fertilization analyses were controversial and unclear. Since young trees from all population clusters reacted positively in the phase with an increase of atmospheric CO2 between 1980 and 2014, this behavior was not translated into growth for the last 15 years (2000-2014). However, it should be noted that the young trees of the highest elevation populations did not have a negative growth trend, so it seems that CO2 counteracted the negative effect of recent regional climate change (increase in temperature and precipitation decrease) in these population trees. Further studies are needed to assess the effects of climate variability over other ecological and physiological processes.
1.Escuela Ingn Forestal, Fac Ciencias, Hemera Ctr Observac Tierra, Jose Toribio Medina 29, Santiago 8340589, Chile 2.CCT CONICET Mendoza, Inst Argentino Nivol Glaciol & Ciencias Ambiental, Lab Dendrocronol & Hist Ambiental, CC 330,M5502IRA, Mendoza, Argentina 3.Univ Nacl Cuyo, Fac Ciencias Agr, Ave Almirante Brown 500, RA-5505 Mendoza, Argentina 4.Univ Chile, Fac Ciencias Forestales & Conservac Nat, Dept Silvicultura & Conservac Nat, Santiago 8820808, Chile 5.CCT CONICET San Juan, Ctr Invest Geosfera & Biosfera, Ave Ignacio De La Roza 590, RA-5400 San Juan, Argentina 6.Pontificia Univ Catolica Valparaiso, Inst Geog, Lab Dendrocronol & Estudios Ambientales, Valparaiso 2362807, Chile 7.Univ Austral Chile, Ctr Transdisciplinario Estudios Ambientales & Des, Valdivia 5110566, Chile
Recommended Citation:
Venegas-Gonzalez, Alejandro,Roig, Fidel A.,Pena-Rojas, Karen,et al. Recent Consequences of Climate Change Have Affected Tree Growth in Distinct Nothofagus macrocarpa (DC.) FM Vaz & Rodr Age Classes in Central Chile[J]. FORESTS,2019-01-01,10(8)