树液流的方位和径向变化及其对蒙古杉蒸腾作用估算的影响

Q3 Environmental Science
Xin Liu, Li-Ning Song, Jin-Xin Zhang, Xin-Wei Zhu, Yu-Min Zhao, Qing-Shan Zheng
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引用次数: 0

摘要

本研究应用热耗散探针技术对奥廷达格沙地东部天然蒙古杉树干内不同方向(东、南、西、北)和不同深度(0-2、2-4、4-6 cm)的树液流进行了研究,为准确量化蒙古杉林蒸腾耗水量提供了科学依据,并加深了对水分关系的认识。结果表明,不同方向的树液流量昼夜变化呈单峰曲线,树液流量顺序为南>东>西>北。不同边材深度的树液流呈明显的单峰曲线,随着边材深度的增加,树液流明显减少。与四个方向的平均树液流动密度(23.57 kg-d-1)相比,用东南、东西、西南、东北、南北、西北方向的平均值计算的耗水量分别高估了 10.2%、5.5%、14.5%,低估了 12.3%、8.2%、9.8%。用东部、南部和西部的数值计算的用水量分别高估了 6.1%、14.4% 和 15.4%,北部则低估了 30.7%。此外,与根据三个边材深度的平均值(48.51 kg-d-1)计算的耗水量相比,使用边材深度为 0-2、2-4 和 4-6 cm 的树液流动密度计算的耗水量分别高估了 18.8%、低估了 1.7%和低估了 62.9%。这些结果表明,蒙古杉的树液流具有显著的方位角和径向变化,对树木耗水量的估算有很大影响。同时在树干北侧和东侧 0-2 厘米处安装探头可有效减少全树耗水量估算误差 4.2%。这种方法能够准确量化沙地中单株蒙兀儿树的耗水量,从而提高从个体水平到林分水平的蒸腾耗水量估算精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Azimuthal and radial variations in sap flow and its effects on the estimation of transpiration for Picea mongolica.

In this study, we applied thermal dissipation probe technology to examine sap flow in various directions (east, south, west, and north) and at different depths (0-2, 2-4, 4-6 cm) within the stem of natural Picea mongolica trees in the eastern of Otindag Sandy Land to provide a scientific basis for accurately quantifying water consumption of P. mongolica forests through transpiration and to enhance the understanding of water relations. The results showed that the diurnal variation of sap flow in different directions displayed a unimodal curve, with the sap flow sequence being south>east>west>north. The sap flow at different sapwood depths exhibited an obvious unimodal curve, with a significant decrease as sapwood depth increased. Compared with that calculated from the mean sap flux density in four directions (23.57 kg·d-1), water consumption calculated using the mean value in south-east, east-west, south-west, north-east, north-south, and north-west was overestimated by 10.2%, 5.5%, 14.5%, and underestimated by 12.3%, 8.2%, 9.8%, respectively. The water consumption calculated using the values from the east, south, and west was overestimated by 6.1%, 14.4%, and 15.4%, respectively, and underestimated by 30.7% in the north. In addition, compared with the water consumption calculated from the mean value in three sapwood depths (48.51 kg·d-1), that calculated using sap flux density at sapwood depths of 0-2, 2-4, and 4-6 cm were overestimated by 18.8%, underestimated by 1.7%, and underestimated by 62.9%, respectively. These results indicated that sap flow of P. mongolica had significant azimuthal and radial variations, which considerably influence the estimation of tree water consumption. Installing probes at 0-2 cm simultaneously in both the north and east of the trunk could effectively reduce the estimation error of whole-tree water consumption by 4.2%. This approach enabled the accurate quantification of water consumption of individual P. mongolica trees in sandy areas, thereby improving the precision of transpiration water consumption estimates scaling up from individual level to stand level.

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应用生态学报
应用生态学报 Environmental Science-Ecology
CiteScore
2.50
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0.00%
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11393
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