Journal of Desert Research ›› 2021, Vol. 41 ›› Issue (1): 145-155.DOI: 10.7522/j.issn.1000-694X.2020.00061
Previous Articles Next Articles
Chuanhua Li(), Huanhuan Yin, Tongbin Zhu, Min Zhou, Yutao Wang, Hao Sun, Hongjuan Cao, Haiyan Han
Received:
2020-04-30
Revised:
2020-06-29
Online:
2021-01-29
Published:
2021-01-29
CLC Number:
Chuanhua Li, Huanhuan Yin, Tongbin Zhu, Min Zhou, Yutao Wang, Hao Sun, Hongjuan Cao, Haiyan Han. Impact of drought on net primary productivity of vegetation in arid and semi-arid areas: a case study of Hexi Corridor[J]. Journal of Desert Research, 2021, 41(1): 145-155.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.desert.ac.cn/EN/10.7522/j.issn.1000-694X.2020.00061
Fig.6 Effects of different drought durations in Hexi Corridor of China on mean NPP of different vegetation types (horizontal axis represents the nth five days of drought duration)
Fig.7 Variation of average NPP relative mean standard score of drought duration in Hexi Corridor of China (A, B, C, respectively representing forest land, grassland, desert)
Fig.8 Drought changes in the average NPP relative mean standard score of different vegetations in different seasons in Hexi Corridor of China (A, B, C, respectively representing forest land, grassland, desert)
作者 | 研究区 | 研究时段 | 草地 | 林地 | 荒漠 |
---|---|---|---|---|---|
冯益明等[ | 甘肃省 | 2010年 | 43.6 | 172.3 | 11.1 |
周妍妍等[ | 疏勒河流域 | 2001—2015年 | 89.20 | 103.65 | 52.46 |
焦伟等[ | 西北干旱区 | 2000—2014年 | 252.2 | 400.2 | 51.5 |
杨冬辉[ | 石羊河流域 | 2009年 | 67.36 | 358.8 | — |
本研究 | 河西走廊 | 2010—2015年 | 80.51 | 332.47 | 22.06 |
Table 1 Comparison of NPP and literature values in Hexi Corridor of China
作者 | 研究区 | 研究时段 | 草地 | 林地 | 荒漠 |
---|---|---|---|---|---|
冯益明等[ | 甘肃省 | 2010年 | 43.6 | 172.3 | 11.1 |
周妍妍等[ | 疏勒河流域 | 2001—2015年 | 89.20 | 103.65 | 52.46 |
焦伟等[ | 西北干旱区 | 2000—2014年 | 252.2 | 400.2 | 51.5 |
杨冬辉[ | 石羊河流域 | 2009年 | 67.36 | 358.8 | — |
本研究 | 河西走廊 | 2010—2015年 | 80.51 | 332.47 | 22.06 |
1 | Canadell J G,Mooney H A,Baldocchi D D,et al.Carbon metabolism of the terrestrial biosphere:a multitechnique approach for improved understanding[J].Ecosystems,2000,3(2):115-130. |
2 | Liu J,Chen J M,Cihlar J,et al.Net primary productivity distribution in the BOREAS region from a process model using satellite and surface data[J].Journal of Geophysical Research:Atmospheres,1999,104(D22):27735-27754. |
3 | Zhao M,Running S W.Drought-induced reduction in global terrestrial net primary production from 2000 through 2009[J].Science,2010, 329(5994):940-943. |
4 | Grime J P,Brown V K,Thompson K,et al.The response of two contrasting limestone grasslands to simulated climate change[J].Science,2000,289(5480):762-765. |
5 | Kahmen A,Buchmann J P.Diversity-dependent productivity in semi-natural grasslands following climate perturbations[J].Functional Ecology,2005,19(4):594-601. |
6 | Easterling D R,Meehl G A,Parmesan C,et al.Climate extremes:observations,modeling,and impacts[J].Science,2000,289(5487):2068-2074. |
7 | Dai A,Trenberth K E,Qian T.A global dataset of Palmer Drought Severity Index for 1870-2002:relationship with soil moisture and effects of surface warming[J].Journal of Hydrometeorology,2004,5(6):1117-1130. |
8 | 王志伟,翟盘茂.中国北方近 50 年干旱变化特征[J].地理学报,2003,58():61-68. |
9 | 马柱国,符淙斌.中国干旱和半干旱带的10年际演变特征[J].地球物理学报,2005,48(3):519-525. |
10 | Pandey S,Bhandari H S,Hardy B.Economic costs of drought and rice farmers' coping mechanisms:a cross-country comparative analysis[M].Manila,Phillipins:International Rice Research Institute,2007. |
11 | Van Dijk A I J M,Beck H E,Crosbie R S,et al.The millennium drought in southeast Australia (2001-2009):natural and human causes and implications for water resources,ecosystems,economy,and society[J].Water Resources Research,2013,49(2):1040-1057. |
12 | Zscheischler J,Mahecha M D,Von Buttlar J,et al.A few extreme events dominate global interannual variability in gross primary production[J].Environmental Research Letters,2014,9(3):35001. |
13 | Ciais P,Reichstein M,Viovy N,et al.Europe-wide reduction in primary productivity caused by the heat and drought in 2003[J].Nature,2005,437(7058):529-533. |
14 | Zeng N,Yoon J H,Marengo J A,et al.Causes and impacts of the 2005 Amazon drought[J].Environmental Research Letters,2008,3(1):14002. |
15 | Williams W D.Salinisation:a major threat to water resources in the arid and semi-arid regions of the world[J].Lakes & Reservoirs:Research & Management,1999,4(3/4):85-91. |
16 | Fernández Roberto J.Do humans create deserts?[J].Trends in Ecology & Evolution,2002,17(1):6-7. |
17 | Poulter B,Frank D,Ciais P,et al.Contribution of semi-arid ecosystems to interannual variability of the global carbon cycle[J].Nature,2014,509(7502):600-603. |
18 | Fay P A,Carlisle J D,Knapp A K,et al.Altering rainfall timing and quantity in a mesic grassland ecosystem:design and performance of rainfall manipulation shelters[J].Ecosystems,2000,3(3):308-319. |
19 | Gorissen A,Tietema A,Joosten N N,et al.Climate change affects carbon allocation to the soil in shrublands[J].Ecosystems,2004,7(6):650-661. |
20 | Xiao J F,Zhuang Q L,Liang E Y,et al.Twentieth-century droughts and their impacts on terrestrial carbon cycling in China[J].Earth Interactions,2009,13(10):1-31. |
21 | 朱学艺,王锁民,张承烈.河西走廊不同生态型芦苇对干旱和盐渍胁迫的响应调节[J].植物生理学报,2003(4):371-376. |
22 | 邱文君.干旱对西南地区植被净初级生产力的影响研究[D].济南:山东师范大学,2013. |
23 | McKee T B,Doesken N J,Kleist J.The relationship of drought frequency and duration to time scales[C]//Proceedings of the 8th Conference on Applied Climatology,1993:179-183. |
24 | Shukla S,Wood A W.Use of a standardized runoff index for characterizing hydrologic drought[J].Geophysical Research Letters,2008,35(2):41-46. |
25 | Tsakiris G,Vangelis H.Establishing a drought index incorporating evapotranspiration[J].European Water,2005,9(10):3-11. |
26 | Kreyling J,Wenigmann M,Beierkuhnlein C,et al.Effects of extreme weather events on plant productivity and tissue die-back are modified by community composition[J].Ecosystems,2008,11(5):752-763. |
27 | 刘莉红,翟盘茂,郑祖光.中国北方夏半年最长连续无降水日数的变化特征[J].气象学报,2008,66(3):474-477. |
28 | Frich P,Alexander L V,Della-Marta P M,et al.Observed coherent changes in climatic extremes during the second half of the twentieth century[J].Climate Research,2002,19(3):193-212. |
29 | 刘莉红,翟盘茂,郑祖光.中国北方夏半年极端干期的时空变化特征[J].高原气象,2010,29(2):403-411. |
30 | 张雪花,程扬,冯婧.海河流域干旱特征与旱涝交替降雨事件概率分析[J].人民长江,2017(13):7-11. |
31 | 冯益明,姚爱冬,姜丽娜.CASA模型的改进及在干旱区生态系统NPP估算中的应用[J].干旱区资源与环境,2014,28(8):39-43. |
32 | 张福平,冯起,李旭谱, 等.黑河流域NPP遥感估算及其时空变化特征[J].中国沙漠,2014,34(6):1657-1664. |
33 | 李传华,曹红娟,范也平,等.基于校正的CASA模型NPP遥感估算及分析:以河西走廊为例[J].生态学报,2018,39(5):1616-1626. |
34 | 周妍妍,朱敏翔,郭晓娟,等.疏勒河流域气候变化和人类活动对植被 NPP 的相对影响评价[J].生态学报,2019,39(14):5127-5137. |
35 | 焦伟,陈亚宁,李稚.西北干旱区植被净初级生产力的遥感估算及时空差异原因[J].生态学杂志,2017,36(1):183-191. |
36 | 杨东辉.基于MODIS数据的石羊河上游植被净第一性生产力变化研究[D].兰州:西北师范大学,2011. |
37 | 倪向南,郭伟,乔凯.陕北风沙过渡带植被净初级生产力变化特征及原因[J].中国沙漠,2018,38(4):889-898. |
38 | Xiao X,Hollinger D,Aber J,et al.Satellite-based modeling of gross primary production in an evergreen needleleaf forest[J].Remote Sensing of Environment,2004,89(4):519-534. |
39 | Xiao X,Boles S,Frolking S,et al.Observation of flooding and rice transplanting of paddy rice fields at the site to landscape scales in China using VEGETATION sensor data[J].International Journal of Remote Sensing,2002,23(15):3009-3022. |
40 | Bao G,Bao Y H,Qin Z H,et al.Modeling net primary productivity of terrestrial ecosystems in the semi-arid climate of the Mongolian Plateau using LSWI-based CASA ecosystem model[J].International Journal of Applied Earth Observation and Geoinformation,2016,46:84-93. |
41 | Wu C,Chen J M.The use of precipitation intensity in estimating gross primary production in four northern grasslands[J].Journal of Arid Environments,2012,82:11-18. |
42 | Thomey M L,Collins S L,Vargas R,et al.Effect of precipitation variability on net primary production and soil respiration in a Chihuahuan Desert grassland[J].Global Change Biology,2011,17(4):1505-1515. |
43 | 庞素菲,魏伟,郭泽呈,等.基于TVDI的甘肃省农业旱情特征及其影响因素[J].生态学杂志,2019,38(6):1849-1860. |
44 | 季定民.不同气象干旱指标在甘肃省的应用分析[D].兰州:西北师范大学,2015. |
45 | von Buttlar J,Zscheischler J,Rammig A,et al.Impacts of droughts and extreme-temperature events on gross primary production and ecosystem respiration:a systematic assessment across ecosystems and climate zones[J].Biogeosciences,2018,15:1293-1318. |
46 | Zavalloni C,Gielen B,De Boeck H J,et al.Greater impact of extreme drought on photosynthesis of grasslands exposed to a warmer climate in spite of acclimation[J].Physiologia Plantarum,2009,136(1):57-72. |
47 | Phillips O L,Aragão L E O C,Lewis S L,et al.Drought sensitivity of the Amazon rainforest[J].Science,2009,323(5919):1344-1347. |
48 | 赵林,徐春雪,刘雪莹,等.干旱对湖北省森林植被净初级生产力的影响[J].长江流域资源与环境,2014,23(11):1595-1602. |
49 | 朱妮.气候变化下蒙古沙拐枣(Calligonum mongolicum)适宜生境预测[J].中国沙漠,2019,39(3):136-144. |
50 | 张大彪,张元恺,唐进年.河西走廊沿沙防护林演变形式与积沙带稳定性研究[J].防护林科技,2016(1):1-4. |
51 | Lefi E,Medrano H,Cifre J.Water uptake dynamics, photosynthesis and water use efficiency in field-grown Medicago arborea and Medicago citrina under prolonged Mediterranean drought conditions[J].Annals of Applied Biology,2004,144(3):299-307. |
52 | 王碧霞,曾永海,王大勇,等.叶片气孔分布及生理特征对环境胁迫的响应[J].干旱地区农业研究,2010,28(2):122-126. |
53 | Griffin J J,Ranney T G,Pharr D M.Heat and drought influence photosynthesis, water relations, and soluble carbohydrates of two ecotypes of redbud (Cercis canadensis)[J].Journal of the American Society for Horticultural Science,2004,129(4):497-502. |
54 | Wolf S,Eugster W,Ammann C,et al.Contrasting response of grassland versus forest carbon and water fluxes to spring drought in Switzerland[J].Environmental Research Letters,2013,8(3):35007. |
55 | Palta J A,Nobel P S.Root respiration for Agave deserti:influence of temperature, water status and root age on daily patterns[J].Journal of Experimental Botany,1989,40(2):181-186. |
56 | Burton A J,Pregitzer K S,Zogg G P,et al.Drought reduces root respiration in sugar maple forests[J].Ecological Applications,1998,8(3):771-778. |
57 | Davidson E C A,Belk E,Boone R D.Soil water content and temperature as independent or confounded factors controlling soil respiration in a temperate mixed hardwood forest[J].Global Change Biology,1998,4(2):217-227. |
58 | Stitt M,Schulze D.Does Rubisco control the rate of photosynthesis and plant growth?an exercise in molecular ecophysiology[J].Plant,Cell & Environment,1994,17(5):465-487. |
59 | Reich P B,Borchert R.Water stress and tree phenology in a tropical dry forest in the Lowlands of Costa Rica[J].Journal of Ecology,1984,72(1):61-74. |
60 | 柏新富,朱建军,赵爱芬,等.几种荒漠植物对干旱过程的生理适应性比较[J].应用与环境生物学报,2008(6):763-768. |
61 | Frank D,Reichstein M,Bahn M,et al.Effects of climate extremes on the terrestrial carbon cycle:concepts,processes and potential future impacts[J].Global Change Biology,2015,21(8):2861-2880. |
62 | 吴庆贵,邹利娟,吴福忠,等.涪江流域丘陵区不同植被类型水源涵养功能[J].水土保持学报,2012,26(6):254-258. |
63 | Chen T,Van der Werf G R,De Jeu R A M,et al.A global analysis of the impact of drought on net primary productivity[J].Hydrology and Earth System Sciences,2013,17:3885-3894. |
64 | 孙立群,李晴岚,陈骥,等.欧亚大陆不同生态区植被生长对降水响应的季节变化规律[J].生态学报,2018,38(22):8051-8059. |
[1] | Linlin Song, Qiang Zhang, Yulong Ren, Yiping Li, Lanying Han, Yuanpu Liu, Suping Wang. The applicable analysis of PDSI and self_calibrating PDSI drought indices in southwest China [J]. Journal of Desert Research, 2021, 41(2): 242-252. |
[2] | Yimei Sun, Qing Tian, Peng Lv, Aixia Guo, Pingping Li, Liqin Zhu, Xiaoan Zuo. Response of structure of plant community to extreme drought in fixed dunes and grassland in the Horqin Sandy Land [J]. Journal of Desert Research, 2021, 41(1): 129-136. |
[3] | Jiaoyue Wang, Shugao Qin, Yuqing Zhang. Spatial-temporal patterns of vegetation water use efficiency in the Mu Us Desert [J]. Journal of Desert Research, 2020, 40(5): 120-129. |
[4] | Lingping Li, Taishan Lu, Mingchun Liu, Lili Hu, Suping Wang. Characteristics of hydrological drought based on standardized flow index in Shiyang River Basin of China [J]. Journal of Desert Research, 2020, 40(4): 24-33. |
[5] | Zhang Wenli, Zhu Gong, Huang Wenguang, Zhang Yu, Wang Lei, Luo Xiaoling, Liu Yubing. Physiological response characteristics of Hedysarum multijugum, Clematis fruticosa and Buddleja alternifolia seedlings to drought in semi-arid region of Northwest China [J]. Journal of Desert Research, 2020, 40(3): 159-167. |
[6] | Zhou Lifeng, Yang Rong, Zhao Wenzhi. Temporal evolution of soil water repellency in stabilized sand dunes in artificial sand fixation vegetation area on fringe of a desert [J]. Journal of Desert Research, 2020, 40(3): 185-192. |
[7] | Li Duan, Si Jianhua, Zhang Xiaoyou, Gao Yayu, Luo Huan, Qin Jie, Ren Lixin. Ecological adaptation of Populus euphratica to drought stress [J]. Journal of Desert Research, 2020, 40(2): 17-23. |
[8] | Ma Pengli, Han Lanying, Zhang Xudong, Liu Weiping. Regional Characteristics of Drought in China under the Background of Climate Warming [J]. Journal of Desert Research, 2019, 39(6): 209-215. |
[9] | Han Lanying, Zhang Qiang, Jia Jianying, Wang Youheng, Huang Tao. Drought Severity, Frequency, Duration and Regional Differences in China [J]. Journal of Desert Research, 2019, 39(5): 1-10. |
[10] | Li Yanying, Zhang Aiping, Li Hongying, Wang Fucun, Chen Ying, Zeng Ting. Relationship between Boundary Layer Height and Wind-sand Intensities over Hexi Corridor, China [J]. Journal of Desert Research, 2019, 39(5): 11-20. |
[11] | Luo Dandan, Bai Xiaoming, Sun Yanmin, Jin Yanli, Chen Hui, Yuan Yajuan, Li Yujie. Response of Physiological Characteristics and Evaluation of Drought Tolerance for 10 Wild Iris lacteal var. chinensis from Gansu, China [J]. Journal of Desert Research, 2019, 39(5): 210-221. |
[12] | Wang Xiao, Xia Jiangbao, Zhou Dongxing, Zhao Ziguo, Dong Linshui. Photosynthesis Characteristics of Periploca sepium under Drought Stress in Shell-sand Habitat in the Yellow River Delta [J]. Journal of Desert Research, 2019, 39(4): 139-148. |
[13] | Wang Ying, Zhao Wen, Zhang Qiang. Evaluation of Agricultural Drought Vulnerability in Northern China [J]. Journal of Desert Research, 2019, 39(4): 149-158. |
[14] | Bao Yongzhi, Duan Limin, Liu Tingxi, Wang Guanli, Tong Xin. Simulation of Evapotranspiration of Caragana microphylla Community [J]. Journal of Desert Research, 2019, 39(4): 177-186. |
[15] | Wang Xinyuan, Liu Shizeng, Chen Xiangshun, Wang Xiaojun, Wang Bin, Wan Xiang. Dynamic Changes and Driving Factors of Oasis in Hexi Corridor [J]. Journal of Desert Research, 2019, 39(4): 212-219. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||
©2018Journal of Desert Research
Tel:0931-8267545
Email:caiedit@lzb.ac.cn;desert@lzb.ac.cn
Support:Magtech