ag捕鱼官网

[1]程立平,齐 光,李彦娇,等.黄土塬区旱作冬小麦泥土水份操纵特点的不变同位素阐发[J].ag捕鱼官网,2021,28(03):170-176.
 CHENG Liping,QI Guang,LI Yanjiao,et al.Stable Isotope Analysis of Soil Water Utilization by Winter Wheat in Dryland of Loess Tableland[J].,2021,28(03):170-176.
点击复制

黄土塬区旱作冬小麦泥土水份操纵特点的不变同位素阐发

参考文献/References:

[1] 邓振镛,张强,王强,等.黄土高原旱塬区泥土贮水量对冬小麦产量的影响[J].生态学报,2011,31(18):5281-5290.
[2] 李刚,王亚萍,李超,等.黄土塬区高底墒前提下营养差别对冬小麦产量的影响[J].ag捕鱼官网,2019,26(4):146-150.
[3] 李玉山,喻宝屏.泥土深层储水对小麦产量效应的研讨[J].泥土学报,1980,17(1):43-54.
[4] Schroth G. A review of belowground interactions in agroforestry, focussing on mechanisms and management options[J]. Agroforestry Systems, 1998,43(1):5-34.
[5] 刘为健,杨文稼,王盈盈,等.2个小麦种类水份操纵效力的差别及其与深层水份操纵的干系[J].ag捕鱼官网登录报,2020,34(3):245-251,258.
[6] 柳玉凤,谢英荷,杨福田,等.夏闲笼盖和莳植体例对黄土旱塬小麦产量及泥土水份的影响[J].浇灌排水学报,2019,38(4):36-42.
[7] Dawson T E, Mambelli S, Plamboeck A H, et al. Stable isotopes in plant ecology[J]. Annual Review of Ecology and Systematics, 2002,33(1):507-559.
[8] Ehleringer J R, Dawson T E. Water uptake by plants:perspectives from stable isotope composition. Plant Cell Environ[J]. Plant Cell & Environment, 1992,15(9):1073-1082.
[9] 于静洁,李亚飞.不变氢氧同位素定量动物水份来历的不肯定性剖析[J].生态学报,2018,38(22):7942-7949.
[10] Phillips D L, Gregg J W. Source partitioning using stable isotopes:coping with too many sources[J]. Oecologia, 2003,136(2):261-269.
[11] 苑晶晶,袁国富,罗毅,等.操纵δ18 O信息阐发冬小麦对浅埋深公开水的操纵[J].天然资本学报,2009,24(2):360-368.
[12] 张丛志,张佳宝,张辉.差别深度泥土水份对黄淮海封丘地域小麦的进献[J].泥土学报,2012,49(4):655-664.
[13] 杜俊杉,马英,胡晓农,等.基于双不变同位素和MixSIAR模子的冬小麦根系吸水来历研讨[J].生态学报,2018,38(18):6611-6622.
[14] 安江龙,马娟娟,张亚雄,等.两种模子阐发体例下冬小麦根系吸水深度的对照研讨[J].浇灌排水学报,2017,36(11):25-28.
[15] 陈曦,李志,程立平,等.黄土塬区大气降水的氢氧不变同位素特点及水汽来历[J].生态学报,2016,36(1):98-106.
[16] Allison G B. The relations between o-18 and deuterium in water in sand columns undergoing evaporation[J]. Journal of Hydrology, 1982,55:163-169.
[17] Schultz N M, Griffis T J, Lee X, et al. Identification and correction of spectral contamination in 2 H/1 H and 18 O/16 O measured in leaf, stem, and soil water[J]. Rapid Communications in Mass Spectrometry Rcm, 2011,25(21):3360-3368.
[18] 倪盼盼,朱元骏,巩铁雄.黄土塬区降水变更对冬小麦泥土耗水特点及水份操纵效力的影响[J].干旱地域农业研讨,2017,35(4):80-87.
[19] Cheng X L, An S Q, Li B, et al. Summer rain pulse size and rainwater uptake by three dominant desert plants in a desertified grassland ecosystem in northwestern China[J]. Plant Ecology, 2006,184(1):1-12.
[20] 冯广龙,刘昌明.冬小麦根系发展与泥土水份操纵体例彼此干系阐发[J].天然资本学报,1998,13(3):235-241.
[21] 康绍忠,刘晓明,熊运章.冬小麦根系吸水形式的研讨[J].东南农林科技大学学报:天然迷信版,1992,20(2):5-12.
[22] Chimner R A, Cooper D J. Using stable oxygen isotopes to quantify the water source used for transpiration by native shrubs in the San Luis Valley, Colorado U. S. A[J]. Plant & Soil, 2004,260(1):225-236.
[23] Wu Y J, Zhou H., Zheng X J, et al. Seasonal changes in the water use strategies of three co-occurring desert shrubs[J]. Hydrological Processes, 2014,28(26):6265-6275.
[24] 李鹏展,王力,王棣.黄土旱塬区冬小麦泥土水库静态[J].操纵生态学报,2017,28(11):3653-3662.

类似文献/References:

[1]张燕青,刘文兆.差别施肥处置下麦田水份操纵进程及其效力特点[J].ag捕鱼官网,2012,19(05):133.
 ZHANG Yan-qing,LIU Wen-zhao.Characteristics of Water Utilization Process and Efficiency under Different Fertilization Treatments in a Wheat Field[J].,2012,19(03):133.
[2]倪盼盼,朱元骏,崔亚强.黄土塬区降水变更对冬小麦叶片形状和生物量的影响[J].ag捕鱼官网,2016,23(06):116.
 NI Panpan,ZHU Yuanjun,CUI Yaqiang.Effects of Rainfall Change on Leaf Morphology and Biomass of Winter Wheat in the Loess Tableland[J].,2016,23(03):116.
[3]刘春芬,刘文兆,林文,等.黄土塬区差别地膜笼盖度下泥土水热状态研讨[J].ag捕鱼官网,2017,24(06):62.
 LIU Chunfen,LIU Wenzhao,LIN Wen,et al.Soil Hydrothermal Status Under Different Degrees of Film Mulching Coverage on the Loess Tableland[J].,2017,24(03):62.
[4]何汇虹,刘文兆.黄土塬区农田泥土温度变更特点研讨[J].ag捕鱼官网,2013,20(05):124.
 HE Hui-hong,LIU Wen-zhao.Study on Characteristics of Soil Temperature Changes in Arable Land on the Loess Tableland[J].,2013,20(03):124.
[5]李刚,王亚萍,李超,等.黄土塬区高底墒前提下营养差别对冬小麦产量的影响[J].ag捕鱼官网,2019,26(04):146.
 LI Gang,WANG Yaping,LI Chao,et al.Effect of Nutrient Difference on Yield of Winter Wheat Under the Condition of High Soil Moisture in the Loess Tableland[J].,2019,26(03):146.
[6]王松伟,郭忠升.多年生野生柠条林发展对泥土水份的影响[J].ag捕鱼官网,2020,27(03):70.
 WANG Songwei,GUO Zhongsheng.Effects of Perennial Caragana korshinskii Kom on Soil Moisture[J].,2020,27(03):70.
[7]熊小锋,李建鸿,蒲俊兵,等.典范岩溶石漠化区泥土剖面水份和温度静态纪律及传输特点[J].ag捕鱼官网,2020,27(05):59.
 XIONG Xiaofeng,LI Jianhong,PU Junbing,et al.Dynamics Rules and Coupling Transfer Characteristics of Soil Moisture and Temperature on Soil Profile in Typical Karst Rocky Desertification Area[J].,2020,27(03):59.
[8]柴成武,王理德,尉秋实,等.民勤青土湖区差别年限退耕地泥土水份和营养变更[J].ag捕鱼官网,2020,27(05):101.
 CHAI Chengwu,WANG Lide,WEI Qiushi,et al.Soil Moisture and Nutrient Changes in Different Years of Abandoned Farmlands in Qingtu District[J].,2020,27(03):101.
[9]郑太辉,汤崇军,徐铭泽,等.差别水保办法下红壤坡耕地浅层泥土水份含量对降雨的呼应[J].ag捕鱼官网,2020,27(05):113.
 ZHENG Taihui,TANG Chongjun,XU Mingze,et al.Response of Surface Soil Water Contents to Rainfall on Red Soil Sloping Farmland Under Different Soil Conservation Measures[J].,2020,27(03):113.
[10]杜雨佳,赵勇钢,刘小芳,等.黄土丘陵区柠条莳植带状布局对坡面泥土水份的影响[J].ag捕鱼官网,2020,27(06):52.
 DU Yujia,ZHAO Yonggang,LIU Xiaofang,et al.Effects of Strip Caragana korshinskii Plantation on Soil Moisture at Hillslope Scale in the Loess Hilly Region[J].,2020,27(03):52.

备注/Memo

收稿日期:2020-07-23 修回日期:2020-08-01
帮助名目:国度天然迷信基金“黄土塬区深剖面泥土水份均衡和公开水补给对地盘操纵/覆被变更的呼应”(41771036); “基于氢氧不变同位素手艺的黄土塬区深层泥土水对冬小麦生养耗水的进献研讨”(41401015)
第一作者:程立平(1981—),男,陕西渭南人,博士,副传授,首要处置农业生态水文标的目的研讨。E-mail:lpchengnwu@163.com

更新日期/Last Update: 2021-04-20
64体育 英亚app 亚博网页版 爱游戏app 亚博网页版