Effects of Environmental Factors and Livestock Grazing Exclusion on Physiological Indicators of Cold-Tolerance of Common Forage Species in Alpine Meadows on North Tibet Plateau

doi:10.11733/j.issn.1007-0435.2026.03.016

Acta Agrestia Sinica ›› 2026, Vol. 34 ›› Issue (3): 917-928.DOI: 10.11733/j.issn.1007-0435.2026.03.016

Effects of Environmental Factors and Livestock Grazing Exclusion on Physiological Indicators of Cold-Tolerance of Common Forage Species in Alpine Meadows on North Tibet Plateau

CHEN Lin-yao^1,2, LIU Nan³, MA Jiao-lin³, GUO Rong-ming³, XIA Mao-lin³, WAN Yun-fan¹, WU Jian-shuang^1,2

1. Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Beijing 100081, China;
2. National Nanfan Research Institute, Chinese Academy of Agricultural Sciences, Sanya, Hainan Province 572024, China;
3. Tibet Autonomous Region Animal Disease Control Center (Tibet Animal Husbandry Service Center), Lhasa, Xizang 850000, China

Received:2025-05-08 Revised:2025-09-18 Published:2026-03-23

环境因子和围栏封育对藏北高寒草甸常见牧草耐寒生理指标的影响

陈林耀^1,2, 刘楠³, 马娇林³, 郭荣明³, 夏茂林³, 万运帆¹, 武建双^1,2

1. 中国农业科学院农业环境与可持续发展研究所, 北京 100081;
2. 中国农业科学院国家南繁研究院, 海南三亚 572024;
3. 西藏自治区动物疫病预防控制中心(西藏自治区畜牧总站), 西藏拉萨 850000

通讯作者: 武建双，E-mail：wujianshuang@caas.cn
作者简介:陈林耀（2001-），男，汉族，福建清流人，硕士研究生，主要从事青藏高原高寒植物抗逆生理研究，E-mail：chenlinyao123@out?look.com；
基金资助:
西藏自治区科技计划重点研发及转化重点项目“基于牧草产量和营养品质耦合的藏北羌塘高寒草地承载力研究”（XZ202501ZY0042）资助

Abstract

Abstract: Low-temperature stress is a critical factor regulating plant growth in alpine meadows on the Tibetan Plateau. This study selected common forage species from four functional groups in alpine meadows in North Tibet， measured their cold-tolerance-related physiological indicators， and explored the impact pathways of livestock grazing exclusion， climatic conditions， soil nutrients， and plant community structural regimes. The results showed that （1） cold tolerance-related physiological indicators were significantly different among species and plant functional groups （P<0.05） without significant differences between inside and outside of the fences for grazing exclusion；（2） at the community level， malondialdehyde （MDA）， peroxidase （POD）， and catalase （CAT） activities were positively correlated with growing season precipitation （GSP）； superoxide dismutase （SOD） activity was positively correlated with growing season temperature （GST）； soluble sugar （SS） and SOD were negatively correlated with soil total nitrogen （STN）； SS and soluble protein （SP） were negatively correlated with soil total phosphorus （STP）； proline （Pro）， SS， and CAT were negatively correlated with species richness and the Shannon-Wiener index； Pro was negatively correlated with the Simpson's diversity index； and aboveground biomass （AGB） was negatively correlated with MDA and CAT （P<0.05）；（3） the structural equation modeling （SEM） revealed that AGB was directly affected by temperature and antioxidant enzyme activity， with path coefficients of 0.39 and -0.41， respectively. Soil nutrients and community structure indirectly affected antioxidant enzyme activity through osmoregulatory substances， with effect sizes of -0.13 and -0.18， respectively. Precipitation affected AGB indirectly through antioxidant enzyme activity， with an effect size of -0.30. It is recommended to elucidate the mechanisms underlying interactions between cold tolerance-related physiological indices and environmental variables on plant survival in alpine meadows in further studies.

Key words: Alpine meadow, Community-weighted mean, Livestock grazing management, Plant functional groups, Soil nutrients

摘要： 低温是影响高寒草甸植物生长的关键环境因子。本研究选取高寒草甸4类功能群常见植物，测定其耐寒生理指标，探究封育、气候、土壤及群落特征的影响路径。结果表明：（1）耐寒生理指标在物种和功能群之间差异显著，封育无显著影响；（2）在群落水平上，丙二醛、过氧化物酶、过氧化氢酶与降水正相关，超氧化物歧化酶与气温正相关，可溶性糖、超氧化物歧化酶与土壤氮含量负相关，可溶性糖、可溶性蛋白与土壤磷含量负相关，脯氨酸、可溶性糖、过氧化氢酶与物种丰富度及香农指数负相关，脯氨酸与辛普森指数负相关，地上生物量与丙二醛和过氧化氢酶负相关（P<0.05）；（3）结构方程结果显示，高寒草甸植物地上生物量受气温和抗氧化酶活性直接影响，其路径强度分别为0.39和-0.41；土壤养分和群落结构通过细胞间渗透压调节物质间接影响抗氧化酶活性，其作用强度为-0.13和-0.18；降水通过抗氧化酶活性间接地影响地上生物量，其作用强度为-0.30。建议未来着重探究耐寒生理指标与环境因子交互作用对高寒草甸植物生存的影响机理。

关键词: 高寒草甸, 群落加权平均值, 放牧管理, 植物功能群, 土壤养分

CLC Number:

S812.8

CHEN Lin-yao, LIU Nan, MA Jiao-lin, GUO Rong-ming, XIA Mao-lin, WAN Yun-fan, WU Jian-shuang. Effects of Environmental Factors and Livestock Grazing Exclusion on Physiological Indicators of Cold-Tolerance of Common Forage Species in Alpine Meadows on North Tibet Plateau[J]. Acta Agrestia Sinica, 2026, 34(3): 917-928.

陈林耀, 刘楠, 马娇林, 郭荣明, 夏茂林, 万运帆, 武建双. 环境因子和围栏封育对藏北高寒草甸常见牧草耐寒生理指标的影响[J]. 草地学报, 2026, 34(3): 917-928.

References

[1] DING Y，HOU X Y，WU X H，et al. Discussion on research hotspots of grassland ecosystem under the background of climate change[J]. Chinese Journal of Grassland，2013，35（5）：124-132丁勇，侯向阳，吴新宏，等. 气候变化背景下草原生态系统研究热点探讨[J]. 中国草地学报，2013，35（5）：124-132
[2] XIE Z X，CIREN Q Z，YANG Z Y，et al. Research progress on physiological and ecological adaptability of plants to alpine environment[J]. Tibet’s Science & Technology，2023，45（6）：11-19谢正新，次仁曲宗，杨智永，等. 植物对高寒环境的生理生态适应性研究进展[J]. 西藏科技，2023，45（6）：11-19
[3] DU J，ZHOU K S，YUAN L，et al. Variation characteristics of extreme temperature events at grass growing season in Northern Tibet from 1961 to 2010[J]. Pratacultural Science，2014，31（11）：2026-2033杜军，周刊社，袁雷，等. 1961—2010年藏北牧草生长季极端气温的变化特征[J]. 草业科学，2014，31（11）：2026-2033
[4] MIAO Y J，ZONG N，LI Z W. Research progress on trade-off strategies for functional traits in alpine plants[J]. Chinese Journal of Applied and Environmental Biology，2025，31（7）：1157-1172缪雨珏，宗宁，李振威. 高寒植物功能性状权衡策略研究进展[J]. 应用与环境生物学报，2025，31（7）：1157-1172
[5] AN F F，LI G H，CHEN T，et al. Research progress on physiology and proteomics for cold tolerance in plants[J]. Chinese Agricultural Science Bulletin，2015，31（14）：96-101安飞飞，李庚虎，陈霆，等. 植物耐寒生理及蛋白质组学研究进展[J]. 中国农学通报，2015，31（14）：96-101
[6] XU C X. Research progress on the mechanism of improving plant cold hardiness[J]. Acta Ecologica Sinica，2012，32（24）：7966-7980徐呈祥. 提高植物抗寒性的机理研究进展[J]. 生态学报，2012，32（24）：7966-7980
[7] WANG F，WANG Q，ZHAO X Y. Research progress of phenotype and physiological response mechanism of plants under low temperature stress[J]. Molecular Plant Breeding，2019，17（15）：5144-5153王芳，王淇，赵曦阳. 低温胁迫下植物的表型及生理响应机制研究进展[J]. 分子植物育种，2019，17（15）：5144-5153
[8] LIU J Y，YANG F，MAO S，et al. Advances in the physiological functions of plant lipids in response to stresses[J]. Chinese Journal of Biotechnology，2021，37（8）：2658-2667刘俊羽，杨帆，毛爽，等. 植物脂质应答逆境胁迫生理功能的研究进展[J]. 生物工程学报，2021，37（8）：2658-2667
[9] TRAVERSO N，MENINI S，MAINERI E P，et al. Malondialdehyde，a lipoperoxidation-derived aldehyde，can bring about secondary oxidative damage to proteins[J]. The Journals of Gerontology Series A，Biological Sciences and Medical Sciences，2004，59（9）：B890-B895
[10] YI X L，LI M Y，CHI H，et al. Influences of salicylic acid （SA） on the contents of endogenous hormones and osmotic adjustment substances in purple majesty under drought and/or high temperature[J]. Journal of Southwest University （Natural Science Edition），2014，36（2）：62-67易小林，李名扬，池浩，等. 水杨酸缓解干旱、高温及双重胁迫下对紫御谷内源激素及渗透调节物质的影响[J]. 西南大学学报（自然科学版），2014，36（2）：62-67
[11] LI C Y，CHEN S S，XU W，et al. Effect of low temperature at seedling stage on antioxidation enzymes and cytoplasmic osmoticum of leaves in wheat cultivar Yangmai 16[J]. Acta Agronomica Sinica，2011，37（12）：2293-2298李春燕，陈思思，徐雯，等. 苗期低温胁迫对扬麦16叶片抗氧化酶和渗透调节物质的影响[J]. 作物学报，2011，37（12）：2293-2298
[12] CHEN X，LI J Y，MA J，et al. Effect of low temperature stress on change of free proline content in the leaves of spring and winter wheat[J]. Xinjiang Agricultural Sciences，2007，44（5）：553-556，544陈璇，李金耀，马纪，等. 低温胁迫对春小麦和冬小麦叶片游离脯氨酸含量变化的影响[J]. 新疆农业科学，2007，44（5）：553-556，544
[13] MA P，SU S，LI Y，et al. Effects of exogenous proline on osmotic adjustment and antioxidant enzymes in the leaves of Nitraria tangutorum under natural drought stress [J]. Journal of Gansu Agricultural University， 2020， 55（4）： 121
[14] SINGH A，SATHEESHKUMAR P K. Reactive oxygen species （ROS） and ROS scavengers in plant abiotic stress response[M]//Stress biology in photosynthetic organisms. Singapore：Springer Nature Singapore，2024：41-63
[15] MEDINAS D B，AUGUSTO O. Mechanism of the peroxidase activity of superoxide dismutase 1[J]. Free Radical Biology & Medicine，2010，49（4）：682；authorreply683-682；authorreply684
[16] ZHOU J Y，ZHAO W W，YANG Y，et al. Comprehensive evaluation of drought resistance of two different Pennisetum species during seed germination and seedling growth stages[J]. Chinese Journal of Grassland，2023，45（8）：50-59周洁仪，赵文武，杨杨，等. 2种狼尾草属牧草萌发期和苗期抗旱性综合评价[J]. 中国草地学报，2023，45（8）：50-59
[17] XUE X，ZHANG Q，WU J X. Research of reactive oxygen species in plants and its application on stress tolerance[J]. Biotechnology Bulletin，2013，29（10）：6-11薛鑫，张芊，吴金霞. 植物体内活性氧的研究及其在植物抗逆方面的应用[J]. 生物技术通报，2013，29（10）：6-11
[18] BAI Y J，LI G R，HUANG F L，et al. Research progress of reactive oxygen species and plant antioxidant system[J]. Journal of Anhui Agricultural Sciences，2017，45（36）：1-3白英俊，李国瑞，黄凤兰，等. 活性氧与植物抗氧化系统研究进展[J]. 安徽农业科学，2017，45（36）：1-3
[19] WEI J，XU C，LI K X，et al. Research progress of superoxide dismutase and plant stress resistance[J]. Plant Physiology Communications，2020，56（12）：2571-2584魏婧，徐畅，李可欣，等. 超氧化物歧化酶的研究进展与植物抗逆性[J]. 植物生理学报，2020，56（12）：2571-2584
[20] WANG Y，WANG J，SARWAR R，et al. Research progress on the physiological response and molecular mechanism of cold response in plants[J]. Frontiers in Plant Science，2024，15：1334913
[21] ZHANG Z L，LIU Z H，SONG H N，et al. Protective role of leaf variegation in Pittosporum tobira under low temperature： insights into the physio-biochemical and molecular mechanisms[J]. International Journal of Molecular Sciences，2019，20（19）：4857
[22] AUGUSTYNIAK A，PAWŁOWICZ I，LECHOWICZ K，et al. Freezing tolerance of Lolium multiflorum /Festuca arundinacea introgression forms is associated with the high activity of antioxidant system and adjustment of photosynthetic activity under cold acclimation[J]. International Journal of Molecular Sciences，2020，21（16）：5899
[23] NIEMAN T，HOOGZAAD Y，MARCOTTE S J E，et al. Contrasting root overwintering strategies of perennial wetland monocots[J]. Botany，2018，96（10）：653-661
[24] ZHOU L X，ULLAH F，ZOU J X，et al. Molecular and physiological responses of plants that enhance cold tolerance[J]. International Journal of Molecular Sciences，2025，26（3）：1157
[25] TAHER D，NOFAL E，HEGAZI M，et al. Response of warm season turf grasses to combined cold and salinity stress under foliar applying organic and inorganic amendments[J]. Horticulturae，2023，9（1）：49
[26] ZHENG Y，LUO L D，WEI J J，et al. The glutamate receptors AtGLR1.2 and AtGLR1.3 increase cold tolerance by regulating jasmonate signaling in Arabidopsis thaliana[J]. Biochemical and Biophysical Research Communications，2018，506（4）：895-900
[27] WEGGLER K，ELSÄßER M. The influence of nitrogen applications and low rainfall conditions on yield of mixed grass-legume grassland for 2 years[J]. Nitrogen，2023，4（2）：194-208
[28] RAZA A，CHARAGH S，ZAHID Z，et al. Jasmonic acid： a key frontier in conferring abiotic stress tolerance in plants[J]. Plant Cell Reports，2021，40（8）：1513-1541
[29] MAO F，LU Z G，ZHANG J H，et al. Analysis of climatic characteristics in Naqu area in recent 40 years[J]. Plateau Meteorology，2007，26（4）：708-715毛飞，卢志光，张佳华，等. 近40年那曲地区气候特征分析[J]. 高原气象，2007，26（4）：708-715
[30] DANZENG N M，DANZENG S M. Relationship between climate change and animal husbandry in Naqu area of Xizang[J]. Agriculture of Jilin，2018（17）：107-108单增尼玛，旦增桑姆. 西藏那曲地区气候变化与牧业的关系[J]. 吉林农业，2018（17）：107-108
[31] WAN Y F，GAO Q Z，LIN E D，et al. Investigation of grassland growth and soil nutrient situation in Naqu prefecture of Tibet[J]. Pratacultural Science，2006，23（5）：7-11万运帆，高清竹，林而达，等. 西藏那曲地区草地植被及土壤养分状况调查[J]. 草业科学，2006，23（5）：7-11
[32] FANG J Y，WANG X P，SHEN Z H，et al. Methods and protocols for plant community inventory[J]. Biodiversity Science，2009，17（6）：533-548方精云，王襄平，沈泽昊，等. 植物群落清查的主要内容、方法和技术规范[J]. 生物多样性，2009，17（6）：533-548
[33] BAO S D. Soil Agrochemical Analysis[M]. 3rd ed. Beijing： China Agriculture Press，2000鲍士旦. 土壤农化分析[M]. 第3版. 北京：中国农业出版社，2000
[34] SHI H T. Experimental Guide to Plant Stress Physiology[M]. Beijing： Science Press，2016施海涛. 植物逆境生理学实验指导[M]. 北京：科学出版社，2016
[35] CARMONA C P，ROTA C，AZCÁRATE F M，et al. More for less： sampling strategies of plant functional traits across local environmental gradients[J]. Functional Ecology，2015，29（4）：579-588
[36] LENG J F，GAO X，ZHU J P. Application of multivariate linear regression statistical prediction model[J]. Statistics & Decision，2016，32（7）：82-85冷建飞，高旭，朱嘉平. 多元线性回归统计预测模型的应用[J]. 统计与决策，2016，32（7）：82-85
[37] ZÜST T，AGRAWAL A A. Trade-offs between plant growth and defense against insect herbivory： an emerging mechanistic synthesis[J]. Annual Review of Plant Biology，2017，68：513-534
[38] WANG F C，DONG Q M，FENG B，et al. Effects of single and mixed grazing of yak and Tibetan sheep on the balance between vegetative and reproductive growth of Potentilla acaulis in alpine grassland[J]. Pratacultural Science，2023，40（7）：1866-1874王芳草，董全民，冯斌，等. 牦牛和藏羊单牧、混牧对高寒草地星毛委陵菜营养与生殖生长权衡的影响[J]. 草业科学，2023，40（7）：1866-1874
[39] HE Z H，YANG C H，WANG P，et al. Effect of low-temperature stress on the physiological responses of six gramineous forages in alpine regions and evaluation of their cold resistance[J]. Pratacultural Science，2021，38（10）：2019-2028何子华，杨成行，王沛，等. 高寒地区6种禾本科牧草对低温胁迫的生理响应及耐寒性评价[J]. 草业科学，2021，38（10）：2019-2028
[40] MA X L，ZHAO M D，WANG H C，et al. The physiological and biochemical response of alpine plants to different temperature and salt stress[J]. Ecological Science，2016，35（3）：22-28马晓林，赵明德，王慧春，等. 高寒牧草在不同温度和盐胁迫作用下的生理生化响应[J]. 生态科学，2016，35（3）：22-28
[41] YAO M H，XU Y J，QIU Z M，et al. The correlationship of chill-tolerance with Pro，soluble sugar in eggplant[J]. Hubei Agricultural Sciences，2004，43（4）：88-90姚明华，徐跃进，邱正明，等. 茄子品种耐冷性与脯氨酸和可溶性糖含量的关系[J]. 湖北农业科学，2004，43（4）：88-90
[42] LIU W W，LIU X，LEI Y X，et al. A comprehensive evaluation of cold resistance and the physiological response of Elymus sibiricus genotypes[J]. Acta Prataculturae Sinica，2023，32（8）：152-163柳文蔚，刘鑫，雷映霞，等. 老芒麦种质资源抗寒性综合评价及冷胁迫下的生理反应[J]. 草业学报，2023，32（8）：152-163
[43] WEI M Z，CIREN Q Z，WANG S P，et al. Effects of warm season supplementary feeding on the milk performance of lactating yaks grazing on natural grassland in an alpine pastoral area[J]. Pratacultural Science，2024，41（1）：195-206伪玛张，次仁曲宗，汪诗平，等. 暖季补饲对高寒牧区天然草地放牧泌乳牦牛产乳性能的效应[J]. 草业科学，2024，41（1）：195-206
[44] DUAN Wei；MIJIT Munire；YIMIN Jamilaigul；WANG Yuxiang；LI Qian. Physiological responses to low-temperature stress and cold resistance evaluation of 20Medicago falcata germplasms[J/OL]. https：//kns.cnki.net/KCMS/detail/detail.aspx？filename=CDXU20250821001&dbname=CJFD & dbcode=CJFQ， 2025-08-21/2025-10-24段伟，穆妮热·米吉提，加米丽古丽·伊明，等. 20份黄花苜蓿种质低温胁迫生理响应及抗寒性评价[J/OL]. https：//kns.cnki.net/KCMS/detail/detail.aspx？filename=CDXU20250821001&dbname=CJFD&dbcode=CJFQ，2025-08-21/2025-10-24
[45] HUANG X F，SHI P L，YU C Q，et al. A review of abiotic stress resistance of forages[J]. Acta Agrestia Sinica，2023，31（5）：1293-1301黄小芳，石培礼，余成群，等. 非生物胁迫下牧草抗逆性研究进展[J]. 草地学报，2023，31（5）：1293-1301
[46] FU G，SHEN Z X，SUN W，et al. A meta-analysis of the effects of experimental warming on plant physiology and growth on the Tibetan Plateau[J]. Journal of Plant Growth Regulation，2015，34（1）：57-65
[47] LUO D N，YANG G J，ZHANG G R，et al. Nutrient addition alters drought resistance and resilience via forb abundance in a temperate grassland[J]. Agriculture，Ecosystems & Environment，2025，380：109385
[48] JAGER M M，RICHARDSON S J，BELLINGHAM P J，et al. Soil fertility induces coordinated responses of multiple independent functional traits[J]. Journal of Ecology，2015，103（2）：374-385
[49] WU R，WU Y L，ZHENG G H，et al. Effects of nitrogen addition on physiological indexes of several desert plants[J]. Modern Agriculture，2021（3）：3-8吴榕，吴艳玲，郑国华，等. 氮素添加对几种荒漠植物生理指标的影响[J]. 现代农业，2021（3）：3-8
[50] ZHANG Y，CHEN J，TIAN J X，et al. Effect of low-P stress on maize antioxidant system and soluble sugar content[J]. Heilongjiang Agricultural Sciences，2015（11）：11-16张燕，陈静，田军熊，等. 低磷胁迫对玉米抗氧化系统及可溶性糖含量阶段性变化的影响[J]. 黑龙江农业科学，2015（11）：11-16
[51] LI S M，YANG L Y，QI W X，et al. Effects of climate and landscape diversity on grassland plant diversity and biomass on the Qinghai-Tibet Plateau[J]. Acta Ecologica Sinica，2025，45（7）：3353-3369李生梅，杨路遥，齐雯潇，等. 气候和景观多样性对青藏高原草地植物多样性与生物量的影响[J]. 生态学报，2025，45（7）：3353-3369
[52] YANG Y Z， ZENG Y W. Plant Physiology[M]. 2nd ed. Beijing： Chemical Industry Press，2020杨玉珍，曾佑炜. 植物生理学[M]. 第2版. 北京：化学工业出版社，2020
[53] DANG C L. Redundancy structure in phytocoenosiums as an explanation of ecosystem stability[J]. Acta Ecologica Sinica，1998，18（6）：665-672党承林. 植物群落的冗余结构——对生态系统稳定性的一种解释[J]. 生态学报，1998，18（6）：665-672
[54] LORANGER-MERCIRIS G，BARTHES L，GASTINE A，et al. Rapid effects of plant species diversity and identity on soil microbial communities in experimental grassland ecosystems[J]. Soil Biology and Biochemistry，2006，38（8）：2336-2343
[55] SZYMAŃSKA R，ŚLESAK I，ORZECHOWSKA A，et al. Physiological and biochemical responses to high light and temperature stress in plants[J]. Environmental and Experimental Botany，2017，139：165-177
[56] YING Z，FU S B，YANG Y P. Signaling and scavenging： unraveling the complex network of antioxidant enzyme regulation in plant cold adaptation[J]. Plant Stress，2025，16：100833
[57] HUANG W D，HE Y Z，WANG H H，et al. Leaf physiological responses of three psammophytes to combined effects of warming and precipitation reduction in horqin sandy land，Northeast China[J]. Frontiers in Plant Science，2021，12：785653
[58] XIAO L，MA Y Y，YUWEN P，et al. Mixed grass species differ in rhizosphere microbial community structure and function response to drought compared to monocultures[J]. Rhizosphere，2022，24：100615
[59] YANG J Y，WANG P J，LI X J，et al. Regulation of cold resistance by the polyamine biosynthetic gene SlSPDS2 via modulating the antioxidant enzyme system and osmotic regulatory substances in Solanum lycopersicum[J]. Environmental and Experimental Botany，2023，216：105531
[60] TIAN Z M，HE J D，WANG Z Y，et al. Correction： exogenous melatonin enhances drought tolerance and germination in common buckwheat seeds through the coordinated effects of antioxidant and osmotic regulation[J]. BMC Plant Biology，2025，25（1）：897
[61] WANG C T，WANG G X，LIU W，et al. The effects of plant-soil-enzyme interactions on plant composition，biomass and diversity of alpine meadows in the Qinghai-Tibetan Plateau[J]. International Journal of Ecology，2011，2011（1）：180926

Effects of Environmental Factors and Livestock Grazing Exclusion on Physiological Indicators of Cold-Tolerance of Common Forage Species in Alpine Meadows on North Tibet Plateau

环境因子和围栏封育对藏北高寒草甸常见牧草耐寒生理指标的影响

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

[1]	XU Zi-ying, LIU Meng-ge, SHI Juan, FENG Zi-xuan, YANG Xia, LI Hong-mei, GUO Xiao-jing, YANG Jun-wei, FAN Ya-dong, ZHANG Ying-jun, JING Jing-ying. Synergistic Regulation Effects of No-till Reseeding on the Vegetation-Soil-Livestock System in Degraded Grasslands [J]. Acta Agrestia Sinica, 2026, 34(2): 653-662.
[2]	XU Hong-e, HU Meng-fei, ZHANG Bo-yang, YANG Rui, WANG Dong, CHEN Shui-hong. The Effect of Symbiosis between Endophytic Fungi and Hordeum Bogdanii on Nutrients and Enzyme Activities in Rhizosphere and Non-rhizosphere Soils [J]. Acta Agrestia Sinica, 2026, 34(1): 23-32.
[3]	YANG Zhuo-li, LIU Xiao-ni, ZHANG De-gang, QI Hao, JI Tong, HE Guo-xing, LI Ya-li, WANG Yun-jun, MA Cheng-long, LI Jia-jin, YU Yao-xin. Water-holding Capacity and Stoichiometric Characterization of Alpine Meadow Soils with Different Degradation Levels in Gannan [J]. Acta Agrestia Sinica, 2026, 34(1): 107-117.
[4]	BAO Zhi-peng, LIN Dong, LIU Xue-peng, LUO Wei-wei, SONG Yi-nuo, HUA Xin-ying. Effects of Grazing Intensities on Soil Organic Carbon and its Fractions in Alpine Meadows [J]. Acta Agrestia Sinica, 2026, 34(1): 172-181.
[5]	YUAN Ying, LI Xi-lai, CHAI Yu, ZHANG Jing, WU Xi, ZHOU Yi-zhi, GAO Pei. Assessment of the Effectiveness of Alpine Meadow Ecological Restoration and the Responses of Plant Communities and Soil Characteristics to Different Rodent Disturbances [J]. Acta Agrestia Sinica, 2026, 34(1): 191-202.
[6]	PU Jun-yu, SU Ying-jia, WANG Xin-sheng, QIAO Jian-xia, XING Zhi-xian, DU Jin-shan, HONG Yi-nan, LIU Ke-si. Evaluation of the Improvement Effects of Carbonized and Modified Cattle Manure Additions on Salinized Grassland Soils [J]. Acta Agrestia Sinica, 2026, 34(1): 331-339.
[7]	DUAN Jun-guang, FANG Kai, CHU Jian-min, WANG Ying-xin, ZHANG Qi. Effects of Degradation Stages on the Relationship Between Species Diversity and Soil Nutrients in Typical Steppe [J]. Acta Agrestia Sinica, 2025, 33(9): 2890-2899.
[8]	ZHAO Hai-dong, LIANG Hai-hong, HU Xiao-wen, FENG Yan-hao, CHANG Sheng-hua, LI Chun-jie, HOU Fu-jiang. The Preliminary Effects of Ecological Restoration Measures in Degraded Alpine Meadows were Evaluated based on Grassland Revegetation Index [J]. Acta Agrestia Sinica, 2025, 33(9): 3057-3067.
[9]	WANG Rui, SU Shi-feng, YIN Ya-li, ZHAO Wen, WANG Yan-long, LI Shi-xiong. Effects of Grazing on Soil Phosphorus Conversion Rate in Alpine Meadow in Spring Pasture [J]. Acta Agrestia Sinica, 2025, 33(8): 2502-2511.
[10]	DUAN Jun-guang, FANG Kai, PEI Lu, CHU Jian-min, ZHANG Jin-xin, LI Xiao-xia, WANG Ying-xin. Changes of Trade-offs Between Aboveground and Belowground Plant Biomass Across Different Grazing Intensities of Alpine Meadow [J]. Acta Agrestia Sinica, 2025, 33(8): 2575-2584.
[11]	JIANG Cheng-dong, LI Guo-rong, TONG Sheng-chun, LI Jin-fang, ZHU Hai-li, LIU Ya-bin, CHEN Weng-ting, HU Xia-song. Effects of Soil Characteristics on Vegetation Diversity in Alpine Meadow Rat Mound Patchs in the Yellow River Source [J]. Acta Agrestia Sinica, 2025, 33(8): 2652-2665.
[12]	HE Sheng-ran, LIU Xiao-jing, HAN Tian-hu, ZHAO Ya-jiao, HAN Yan-long. Effects of Alfalfa Nitrogen Efficiency Differences on Nutrient Characteristics and Microbial Community Characteristics of Rhizosphere Soil [J]. Acta Agrestia Sinica, 2025, 33(7): 2150-2161.
[13]	DAI Rong, LIU Su-xing, WANG Zheng-wen, ZHOU Xia-yan, BAI Ya-jun, CAO Wen-xia. Effects of Different Fertilization Modes on Vegetation and Soil of Alpine Meadow in Gannan Prefecture [J]. Acta Agrestia Sinica, 2025, 33(7): 2184-2197.
[14]	ZHANG Yi, HU Jian, ZHOU Qing-ping, WANG Hong-yu, CHEN Jiang-mei, WANG San-xin, WANG Jia-qi, MA Wen-ting, SUN Huan. Effects of Shrub Removal Management Measures on Soil Water Conservation Function in Alpine Shrub-encroached Grassland [J]. Acta Agrestia Sinica, 2025, 33(6): 1912-1923.
[15]	WANG Jia-jing, HE Si-teng, LIANG Xin-ran, YANG Meng-jiao, ZHANG Ya, YANG Zhi-xin, HE Yong-mei. The Impact of Euphorbia jolkinii Boiss. Invasion on the Soil-Plant Carbon， Nitrogen， and Phosphorus Ecological Stoichiometry in Subalpine Meadows of Northwest Yunnan [J]. Acta Agrestia Sinica, 2025, 33(5): 1523-1533.