|Table of Contents|

Water Source of Salix Matsudana and Populus Simonii in Mu Us Sandy Land, China Based on Stable Oxygen Isotopes(PDF)

《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

Issue:
2024年第06期
Page:
804-815
Research Field:
环境与可持续发展
Publishing date:

Info

Title:
Water Source of Salix Matsudana and Populus Simonii in Mu Us Sandy Land, China Based on Stable Oxygen Isotopes
Author(s):
ZHAI Qiao-ting1 ZHANG Tie-gang1 XU Li2* GAO Hai-bo3 YANG Bo3 ZHAO Chun-guang3 YANG Xiao-dong3
(1. Yinshanbeilu Grassland Eco-hydrology National Observation and Research Station, China Institute of Water Resources and Hydropower Research, Hohhot 010020, Inner Mongolia, China; 2. College of Desert Control Science and Engineering, Inner Mongolia Agricultural University, Hohhot 010018, Inner Mongolia, China; 3. Ordos Water Conservancy Development Center, Ordos 017000, Inner Mongolia, China)
Keywords:
plant water use Salix matsudana Populus simonii stable isotope MixSIAR model water absorption source groundwater Mu Us sandy land
PACS:
S157
DOI:
10.19814/j.jese.2024.04011
Abstract:
It is of great significance to determine the water source of different vegetations in arid area and to grasp the utilization rate of potential water sources by vegetation under different water conditions for improving the utilization efficiency of water resources and more rational utilization of water resources in Mu Us sandy land. It is of great significance to understand the water sources of Salix matsudana(S. matsudana) and Populus simonii(P. simonii) in Mu Us sandy land for the efficient utilization of water resources. By analyzing the oxygen isotope composition of branch water, soil water and groundwater of S. matsudana and P. simonii, the Bayesian mixture(MixSIAR)model was used to quantify the water utilization rate of S. matsudana and P. simonii. The results show that the monthly soil water content and soil water δ18O values of S. matsudana and P. simonii increase first and then decrease with the increasing depth. In the growing season, S. matsudana and P. simonii adjust the utilization ratio of soil water and groundwater according to the environment change. When the rainfall is less, the utilization rate of soil water in each layer of S. matsudana and P. simonii is more balanced, and the utilization rate is 21.6%-28.2% and 22.6%-28.8%, respectively. When the rainfall is more, the main water source of S. matsudana and P. simonii is shallow soil water, and the utilization rate is up to 60.1% and 52.1%. It reflects the water adaptation of S. matsudana and P. simonii in Mu Us sandy land, determines the water use mode of artificial vegetation in arid area, and grasps the utilization rate of vegetation to potential water sources under different water conditions. It shows that in the future construction of artificial vegetation in Mu Us sandy land, water should be used to fix green, shrub and grass should be combined, and high water-consuming plant species such as trees should be selected as sand-fixing afforestation tree species as little as possible.

References:

[1] HU W G,RAN J Z,DONG L W,et al.Aridity-driven Dhift in Biodiversity-soil Multifunctionality Relationships[J].Nature Communications,2021,12:5350.
[2] 常学尚,常国乔.干旱半干旱区土壤水分研究进展[J].中国沙漠,2021,41(1):156-163.
CHANG Xue-shang,CHANG Guo-qiao.Advances in Research and Prospect on Soil Moisture in Arid and Semi-arid Areas[J].Journal of Desert Research,2021,41(1):156-163.
[3] HUANG L M,WANG Z W,PEI Y W,et al.Adaptive Water Use Strategies of Artificially Revegetated Pants in a Water-limited Desert:A Case Study from the Mu Us Sandy Land[J].Journal of Hydrology,2024,644:132103.
[4] MARTÍN-GÓMEZ P,AGUILERA M,PEMÁN J,et al.Contrasting Ecophysiological Strategies Related to Drought:The Case of a Mixed Stand of Scots Pine(Pinus Sylvestris)and a Submediterranean Oak(Quercus Subpyrenaica)[J].Tree Physiology,2017,37(11):1478-1492.
[5] GUPTA A,RICO-MEDINA A,CAÑO-DELGADO A I.The Physiology of Plant Responses to Drought[J].Science,2020,368:266-269.
[6] 王 欣,贾国栋,邓文平,等.季节性干旱地区典型树种长期水分利用特征与模式[J].应用生态学报,2021,32(6):1943-1950.
WANG Xin,JIA Guo-dong,DENG Wen-ping,et al.Long-term Water Use Characteristics and Patterns of Typical Tree Species in Seasonal Drought Regions[J].Chinese Journal of Applied Ecology,2021,32(6):1943-1950.
[7] 张瑞强,高天明,王 健,等.希拉穆仁草原根层土壤水分变化特征[J].草业科学,2016,33(5):878-885.
ZHANG Rui-qiang,GAO Tian-ming,WANG Jian,et al.Soil Moisture Characteristics of Root Zone on Xilamuren Grassland[J].Pratacultural Science,2016,33(5):878-885.
[8] 麦尔哈巴·尼加提,戴 岳,师庆东,等.沙漠腹地天然绿洲胡杨和柽柳叶片δ13C值对不同地下水埋深的响应[J].应用生态学报,2020,31(4):1083-1087.
NIJAT Marhaba,DAI Yue,SHI Qing-dong,et al.Response of Foliar δ13C in Populus Euphratica and Ta-marix sp.to Different Groundwater Depths in the Oasis of Desert Hinterland[J].Chinese Journal of Applied Ecology,2020,31(4):1083-1087.
[9] ROTHFUSS Y,JAVAUX M.Reviews and Syntheses:Isotopic Approaches to Quantify Root Water Uptake:A Review and Comparison of Methods[J].Biogeosciences,2017,14(8):2199-2224.
[10] PENNA D,HOPP L,SCANDELLARI F,et al.Ideas and Perspectives:Tracing Terrestrial Ecosystem Water Fluxes Using Hydrogen and Oxygen Stable Isotopes:Challenges and Opportunities from an Interdisciplinary Perspective[J].Biogeosciences,2018,15(21):6399-6415.
[11] GU H L,CHEN G P,REN H,et al.Seasonal Dyna-mics of Water-use Strategies and Response to Precipitation in Different Habitats of Nitraria L.[J].Journal of Hydrology,2025,648:132388.
[12] 桂子洋,秦树高,胡 朝,等.毛乌素沙地两种典型灌木叶片凝结水吸收能力及吸水途径[J].植物生态学报,2021,45(6):583-593.
GUI Zi-yang,QIN Shu-gao,HU Zhao,et al.Foliar Condensate Absorption and Its Pathways of Two Ty-pical Shrub Species in the Mu Us Desert[J].Chinese Journal of Plant Ecology,2021,45(6):583-593.
[13] 万彦博,师庆东,戴 岳,等.沙漠腹地天然绿洲不同林龄胡杨水分利用来源[J].应用生态学报,2022,33(2):353-359.
WAN Yan-bo,SHI Qing-dong,DAI Yue,et al.Water Sources of Populus Euphratica with Different Tree Ages in the Oasis of Desert Hinterland[J].Chinese Journal of Applied Ecology,2022,33(2):353-359.
[14] 柳利利,韩 磊,王娜娜,等.宁夏河东沙区柠条和新疆杨在纯林和混交林中的水分利用策略[J].林业科学,2024,60(10):40-49.
LIU Li-li,HAN Lei,WANG Na-na,et al.Water Use Strategies of Caragana Korshinskii and Populus Bo-lleana in Pure and Mixed Plantations in the Eastern Sandy Land of the Yellow River in Ningxia[J].Scientia Silvae Sinicae,2024,60(10):40-49.
[15] 菅 晶,贾德彬,郭少峰,等.2014年浑善达克沙地黄柳生长季水分来源同位素示踪研究[J].干旱区研究,2017,34(2):350-355.
JIAN Jing,JIA De-bin,GUO Shao-feng,et al.Water Sources in Growing Season of Salix Gordejevii in the Otindag Sandy Land Traced by Stable D Isotope in 2014[J].Arid Zone Research,2017,34(2):350-355.
[16] SONG L N,ZHU J J,LI M C,et al.Water Utilization of Pinus Sylvestris var.Mongolica in a Sparse Wood Grassland in the Semiarid Sandy Region of Northeast China[J].Trees,2014,28(4):971-982.
[17] 李巧燕,来利明,周继华,等.鄂尔多斯高原草地灌丛化不同阶段主要植物水分利用特征[J].生态学杂志,2019,38(1):89-96.
LI Qiao-yan,LAI Li-ming,ZHOU Ji-hua,et al.Water Use Characteristics of Main Species in Different Shrub Encroachment Stages on Ordos Plateau[J].Chinese Journal of Ecology,2019,38(1):89-96.
[18] 朱雅娟,崔清国,杜 娟,等.毛乌素沙地三种灌木群落的水分利用过程[J].生态学报,2020,40(13):4470-4478.
ZHU Ya-juan,CUI Qing-guo,DU Juan,et al.Water Use of Three Shrub Communities in Mu Us Sandy Land[J].Acta Ecologica Sinica,2020,40(13):4470-4478.
[19] PEI Y W,HUANG L M,SHAO M A,et al.Water Use Pattern and Transpiration of Mongolian Pine Plantations in Relation to Stand Age on Northern Loess Plateau of China[J].Agricultural and Forest Meteo-rology,2023,330:109320.
[20] 郝宝宝,艾 宁,贾艳梅,等.毛乌素沙地南缘不同植被类型土壤水分特征[J].干旱区资源与环境,2020,34(5):196-200.
HAO Bao-bao,AI Ning,JIA Yan-mei,et al.Soil Water Characteristics of Different Vegetation Types in the South of Mu Us Sandy Land[J].Journal of Arid Land Resources and Environment,2020,34(5):196-200.
[21] 孙立博.坝上地区小叶杨人工林退化机制研究[D].北京:北京林业大学,2021.
SUN Li-bo.Degradation Mechanism of Populus Simonii Carr.Plantation in Bashang Area[D].Beijing:Beijing Forestry University,2021.
[22] 刘秀花,周子怡,贺 屹,等.毛乌素典型固沙植物的水分利用特性与吸水机制[J].应用生态学报,2024,35(4):897-908.
LIU Xiu-hua,ZHOU Zi-yi,HE Yi,et al.Water Use Characteristics and the Mechanism of Water Uptake in Two Typical Sand-fixing Species in Mu Us Sandy Land[J].Chinese Journal of Applied Ecology,2024,35(4):897-908.
[23] 洪光宇.毛乌素沙地杨柴和沙柳的蒸腾耗水特征及人工林地植被承载力[D].呼和浩特:内蒙古农业大学,2021.
HONG Guang-yu.Vegetation Water Consumption and Soil Water Vegetation Carrying Capacity of He-dysarum Leave and Salix Psammophila Plantations in Mu Us Desert Land[D].Hohhot:Inner Mongolia Agricultural University,2021.
[24] EHLERINGER J R,DAWSON T E.Water Uptake by Plants:Perspectives from Stable Isotope Composition[J].Plant,Cell & Environment,1992,15(9):1073-1082.
[25] 吕 婷,赵西宁,高晓东,等.黄土丘陵区典型天然灌丛和人工灌丛优势植物土壤水分利用策略[J].植物生态学报,2017,41(2):175-185.
LYU Ting,ZHAO Xi-ning,GAO Xiao-dong,et al.Soil Water Use Strategy of Dominant Species in Typical Natural and Planted Shrubs in Loess Hilly Region[J].Chinese Journal of Plant Ecology,2017,41(2):175-185.
[26] ZHANG Z Y,WANG W K,GONG C C,et al.Salix Psammophila Afforestations Can Cause a Decline of the Water Table,Prevent Groundwater Recharge and Reduce Effective Infiltration[J].Science of the Total Environment,2021,780:146336.
[27] BRUNEL J P,WALKER G R,KENNETT-SMITH A K.Field Validation of Isotopic Procedures for Determining Sources of Water Used by Plants in a Semi-arid Environment[J].Journal of Hydrology,1995,167(1/2/3/4):351-368.
[28] 苏鹏燕,张明军,王圣杰,等.基于氢氧稳定同位素的黄河兰州段河岸植物水分来源[J].应用生态学报,2020,31(6):1835-1843.
SU Peng-yan,ZHANG Ming-jun,WANG Sheng-jie,et al.Water Sources of Riparian Plants Based on Stable Hydrogen and Oxygen Isotopes in Lanzhou Section of the Yellow River,China[J].Chinese Journal of Applied Ecology,2020,31(6):1835-1843.
[29] ZHAI Q T,XU L,ZHANG T G,et al.Transpiration Water Consumption by Salix Matsudana and Populus Simonii and Water Use Patterns at Different Developmental Stages on Sandy Land[J].Water,2023,15(24):4255.
[30] 田 超,孟 平,张劲松,等.黄河小浪底库区降水δD和δ18O季节变化特征及水汽来源[J].应用生态学报,2015,26(12):3579-3587.
TIAN Chao,MENG Ping,ZHANG Jin-song,et al.Seasonal Characteristics of δD and δ18O in Precipita-tion and Its Water Vapor Sources in the Xiaolangdi Reservoir Area of Yellow River,China[J].Chinese Journal of Applied Ecology,2015,26(12):3579-3587.
[31] PEI Y W,HUANG L M,SHAO M A,et al.Patterns and Drivers of Seasonal Water Sources for Artificial Sand-fixing Plants in the Northeastern Mu Us Sandy Land,Northwest China[J].Pedosphere,2024,34(1):63-77.
[32] 赵 颖,刘 冰,赵文智,等.荒漠绿洲湿地水分来源及植物水分利用策略[J].中国沙漠,2022,42(4):151-162.
ZHAO Ying,LIU Bing,ZHAO Wen-zhi,et al.Water Sources and Strategies of Plant Water Use in Desert Oasis Wetland of China[J].Journal of Desert Research,2022,42(4):151-162.
[33] CHANG E H,LI P,LI Z B,et al.Using Water Isotopes to Analyze Water Uptake During Vegetation Succession on Abandoned Cropland on the Loess Plateau,China[J].Catena,2019,181:104095.
[34] ZHAO Y L,WANG Y Q,HE M N,et al.Transfe-rence of Robinia Pseudoacacia Water-use Patterns from Deep to Shallow Soil Layers During the Transition Period Between the Dry and Rainy Seasons in a Water-limited Region[J].Forest Ecology and Mana-gement,2020,457:117727.
[35] SONG L N,ZHU J J,LI M C,et al.Sources of Water Used by Pinus Sylvestris var. Mongolica Trees Ba-sed on Stable Isotope Measurements in a Semiarid Sandy Region of Northeast China[J].Agricultural Water Management,2016,164:281-290.
[36] 柳利利,韩 磊,高 阳,等.宁夏河东沙区刺槐和丝绵木水分利用策略[J].生态学报,2023,43(2):812-825.
LIU Li-li,HAN Lei,GAO Yang,et al.Water Use Strategies of Robinia Pseudoacacia and Euonymus Bungeanus in the East Sandy Land of the Yellow Ri-ver in Ningxia,China[J].Acta Ecologica Sinica,2023,43(2):812-825.
[37] 袁国富,张 佩,薛沙沙,等.沙丘多枝柽柳灌丛根层土壤含水量变化特征与根系水力提升证据[J].植物生态学报,2012,36(10):1033-1042.
YUAN Guo-fu,ZHANG Pei,XUE Sha-sha,et al.Change Characteristics in Soil Water Content in Root Zone and Evidence of Root Hydraulic Lift in Tamarix Ramosissima Thickets on Sand Dunes[J].Chinese Journal of Plant Ecology,2012,36(10):1033-1042.
[38] XU Y Q,ZHAO H,ZHOU B Q,et al.Variations in Water Use Strategies of Tamarix Ramosissima at Coppice Dunes Along a Precipitation Gradient in De-sert Regions of Northwest China[J].Frontiers in Plant Science,2024,15:1408943.
[39] 刘自强,余新晓,邓文平,等.华北山区油松侧柏降雨前后水分来源[J].中国水土保持科学,2016,14(2):111-119.
LIU Zi-qiang,YU Xin-xiao,DENG Wen-ping,et al.Water Sources of Pinus Tabulaeformis and Platycladus Orientalis Before and After Rain in Northern China[J].Science of Soil and Water Conservation,2016,14(2):111-119.
[40] 李蓓蓓,张明军,车存伟,等.基于稳定同位素示踪的不同覆砂厚度下枣树水分利用策略[J].植物生态学报,2024,48(9):1202-1212.
LI Bei-bei,ZHANG Ming-Jun,CHE Cun-wei,et al.Water Utilization Strategy of Ziziphus Jujuba Under Different Sand Cover Thicknesses Based on Stable Isotope Tracing[J].Chinese Journal of Plant Ecology,2024,48(9):1202-1212.
[41] 张 欢,曹 俊,王化冰,等.张北地区退化杨树防护林的水分利用特征[J].应用生态学报,2018,29(5):1381-1388.
ZHANG Huan,CAO Jun,WANG Hua-bing,et al.Water Utilization Characteristics of the Degraded Poplar Shelterbelts in Zhangbei,Hebei,China[J].Chinese Journal of Applied Ecology,2018,29(5):1381-1388.
[42] YIN L H,ZHOU Y X,HUANG J T,et al.Interaction Between Groundwater and Trees in an Arid Site:Potential Impacts of Climate Variation and Ground-water Abstraction on Trees[J].Journal of Hydrology,2015,528:435-448.
[43] 赵国琴,李小雁,吴华武,等.青海湖流域具鳞水柏枝植物水分利用氢同位素示踪研究[J].植物生态学报,2013,37(12):1091-1100.
ZHAO Guo-qin,LI Xiao-yan,WU Hua-wu,et al.Stu-dy on Plant Water Use in Myricaria Squamosa with Stable Hydrogen Isotope Tracer in Qinghai Lake Basin[J].Chinese Journal of Plant Ecology,2013,37(12):1091-1100.
[44] 林芙蓉,顾大形,黄玉清,等.植物根系水力再分配的研究进展[J].生态学杂志,2021,40(9):2978-2986.
LIN Fu-rong,GU Da-xing,HUANG Yu-qing,et al.Research Advances in Hydraulic Redistribution of Plant Roots[J].Chinese Journal of Ecology,2021,40(9):2978-2986.
[45] 张 宇,张明军,王家鑫,等.基于稳定同位素的干旱半干旱区SPAC水分运移过程研究进展[J].生态学报,2024,44(4):1360-1373.
ZHANG Yu,ZHANG Ming-jun,WANG Jia-xin,et al.A Review of Water Movement Process in SPAC in the Semi-arid and Aridregions Based on Stable Isotopes[J].Acta Ecologica Sinica,2024,44(4):1360-1373.
[46] 王 胜.水蚀风蚀交错区典型乔灌树种蒸腾耗水特征研究[D].北京:中国科学院大学,2019.
WANG Sheng.Transpiration Characteristics of Typical Shrub and Tree Species in the Water-wind Erosion Crisscross Region,China[D].Beijing:University of Chinese Academy of Sciences,2019.
[47] 杨爱国,付志祥,王玲莉,等.科尔沁沙地杨树水分利用策略[J].北京林业大学学报,2018,40(5):63-72.
YANG Ai-guo,FU Zhi-xiang,WANG Ling-li,et al.Strategies on Water Utilization of Poplar in Horqin Sandy Land of Northern China[J].Journal of Beijing Forestry University,2018,40(5):63-72.

Memo

Memo:
-
Last Update: 2024-12-15