Hydrological niche segregation defines forest structure and drought tolerance strategies in a seasonal Amazon forest

木质部 土壤水分 环境科学 断面积 生物 内涝(考古学) 航程(航空) 蒸汽压差 生态系统 生态学 生态位 耐旱性 蒸腾作用 亚马逊雨林 利基 农学 植物 光合作用 湿地 复合材料 栖息地 材料科学
作者
Mauro Brum,Matthew A. Vadeboncoeur,V. Y. Ivanov,Heidi Asbjornsen,S. R. Saleska,Luciana F. Alves,Deliane Penha,João Carlos Benício Dias,Luiz E. O. C. Aragão,Fernanda Barros,Paulo Bittencourt,Luciano Pereira,Rafael S. Oliveira
出处
期刊:Journal of Ecology [Wiley]
卷期号:107 (1): 318-333 被引量:239
标识
DOI:10.1111/1365-2745.13022
摘要

Abstract The relationship between rooting depth and above‐ground hydraulic traits can potentially define drought resistance strategies that are important in determining species distribution and coexistence in seasonal tropical forests, and understanding this is important for predicting the effects of future climate change in these ecosystems. We assessed the rooting depth of 12 dominant tree species (representing c . 42% of the forest basal area) in a seasonal Amazon forest using the stable isotope ratios (δ 18 O and δ 2 H) of water collected from tree xylem and soils from a range of depths. We took advantage of a major ENSO‐related drought in 2015/2016 that caused substantial evaporative isotope enrichment in the soil and revealed water use strategies of each species under extreme conditions. We measured the minimum dry season leaf water potential both in a normal year (2014; Ψ non‐ENSO ) and in an extreme drought year (2015; Ψ ENSO ). Furthermore, we measured xylem hydraulic traits that indicate water potential thresholds trees tolerate without risking hydraulic failure (P 50 and P 88 ). We demonstrate that coexisting trees are largely segregated along a single hydrological niche axis defined by root depth differences, access to light and tolerance of low water potential. These differences in rooting depth were strongly related to tree size; diameter at breast height (DBH) explained 72% of the variation in the δ 18 O xylem . Additionally, δ 18 O xylem explained 49% of the variation in P 50 and 70% of P 88 , with shallow‐rooted species more tolerant of low water potentials, while δ 18 O of xylem water explained 47% and 77% of the variation of minimum Ψ non‐ENSO and Ψ ENSO . We propose a new formulation to estimate an effective functional rooting depth, i.e. the likely soil depth from which roots can sustain water uptake for physiological functions, using DBH as predictor of root depth at this site. Based on these estimates, we conclude that rooting depth varies systematically across the most abundant families, genera and species at the Tapajós forest, and that understorey species in particular are limited to shallow rooting depths. Our results support the theory of hydrological niche segregation and its underlying trade‐off related to drought resistance, which also affect the dominance structure of trees in this seasonal eastern Amazon forest. Synthesis . Our results support the theory of hydrological niche segregation and demonstrate its underlying trade‐off related to drought resistance (access to deep water vs. tolerance of very low water potentials). We found that the single hydrological axis defining water use traits was strongly related to tree size, and infer that periodic extreme droughts influence community composition and the dominance structure of trees in this seasonal eastern Amazon forest.
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