茶农生计恢复力测度及影响因素研究——以安溪县为例

doi:10.13305/j.cnki.jts.2021.01.011

Abstract

Abstract: Based on the theory of livelihood resilience and the analysis framework of sustainable livelihoods, a tea farmer’s livelihood resilience measurement index system was constructed. Anxi County, Fujian Province was selected as the research area, and the comprehensive index method and multiple linear regression model were used to measure tea farmers’ livelihood resilience and identify its influencing factors. The results of the study show that the tea farmers’ livelihood resilience index from high to low is as follows: labor-oriented>agricultural-oriented>pure agricultural type. The overall trend is gradually weakening from non-agricultural income to pure agricultural income. There are significant differences in the three attribute dimensions of buffer capacity, self-organization capacity and learning capacity. Tea garden size, livelihood diversity, degree of non-agriculturalization, credit capacity, organizational participation, technical training quality, and family size have significant and positive effects on the resilience of tea farmers’ livelihoods. While traffic accessibility, age of the head of household, and labor burden have significantly negative effects on tea farmers’ livelihood resilience. Some suggestions were proposed as follows: strengthening the construction of ecological tea gardens, extending the tea industry chain, expanding the coverage of rural inclusive finance, expanding the main body of the new tea industry, and improving the effectiveness of tea farmer training.

Key words: livelihood resilience, tea farmers, sustainable livelihoods, Anxi County

CLC Number:

JI Jinxiong, HONG Xiaoyan, ZHU Yongjie. Study on the Measurement of Tea Farmers’ Livelihood Resilience and Influencing Factors: A Case Study of Anxi County[J]. Journal of Tea Science, 2021, 41(1): 132-142.

References

[1] 泉州市统计局. 泉州统计年鉴2019年[EB/OL]. (2019-10-18)[2020-08-24]. http://tjj.quanzhou.gov.cn/tjzl/
tjsj/ndsj/201910/t20191018_1929235.htm.
Quanzhou Statistics Bureau. Quanzhou Statistical Yearbook 2019 [EB/OL]. (2019-10-18)[2020-08-24]. http://tjj.quanzhou.gov.cn/tjzl/tjsj/ndsj/201910/t20191018_1929235.htm.
[2] 安溪县人民政府.农业文化遗产助推乡村振兴[EB/OL]. (2019-11-01)[2020-08-24]. http://www.fjax.gov. cn/zwgk/
zdgkxx/ggwhty/ycbh/201911/t20191107_1937819.htm.
Anxi County People’s Government. Agricultural cultural heritage boosts rural revitalization [EB/OL]. (2019-11-01)[2020-08-24]. http://www.fjax.gov.cn/zwgk/ zdgkxx/ggwhty/ycbh/201911/t20191107_1937819.htm.
[3] 苏宝财, 陈祥, 林春桃, 等. 茶农生计资本、风险感知及其生计策略关系分析[J]. 林业经济问题, 2019, 39(5): 552-560.
Su B C, Chen X, Lin C T, et al.Analysis of the relationship among tea farmers’ livelihood capital, risk perception and livelihood strategies[J]. Issues of Forestry Economics, 2019, 39(5): 552-560.
[4] 苏振, 李秋莹. 桂林漓江流域旅游地茶农户生计的改善路径——基于可持续生计视角[J]. 安徽农业科学, 2016, 44(21): 205-207.
Su Z, Li Q Y.The path for improving tea farmers’ livelihood in tourist destination along Lijiang river valley: from the perspective of sustainable livelihoods[J]. Journal of Anhui Agricultural Sciences, 2016, 44(21): 205-207.
[5] Forster J, Lake I R, Watkinson A R, et al.Marine dependent livelihoods and resilience to environmental change: a case study of Anguilla[J]. Marine Policy, 2014, 45(3): 204-212.
[6] 陈佳, 杨新军, 尹莎. 农户贫困恢复力测度、影响效应及对策研究——基于农户家庭结构的视角[J]. 中国人口·资源与环境, 2016, 26(1): 150-157.
Chen J, Yang X J, Yin S.Measures of the resilience, effect and countermeasures of household poverty: the perspective of household structure[J]. China Population, Resources and Environment, 2016, 26(1): 150-157.
[7] 温腾飞, 石育中, 杨新军, 等. 黄土高原半干旱区农户生计恢复力及其影响因素研究——以榆中县为例[J]. 中国农业资源与区划, 2018, 39(5): 172-182.
Wen T F, Shi Y Z, Yang X J, et al.The resilience of farmers' livelihoods and its influencing factors in the semi-arid area of the Loess Plateau: a case study of Yuzhong County[J]. Chinese Journal of Agricultural Resources and Regional Planning, 2018, 39(5): 172-182.
[8] Speranza C I, Wiesmann U, Rist S.An indicator framework for assessing livelihood resilience in the context of social-ecological dynamics[J]. Global Environmental Change, 2014, 28(1): 109-119.
[9] Noralene U Y, Takeuchi Y, Shaw R.Local adaptation for livelihood resilience in Albay, Philippines[J]. Environmental Hazards, 2011, 10(2): 139-153.
[10] Merritt W S, Patch B, Reddy V R, et al.Modelling livelihoods and household resilience to droughts using Bayesian networks[J]. Environmen Development & Sustainability, 2016, 18: 315-346.
[11] Maleksaeidi H, Karami E, Zamani G H, et al.Discovering and characterizing farm households’ resilience under water scarcity[J]. Environment Development & Sustainability, 2016, 18: 499-525.
[12] 李聪, 王磊, 康博纬, 等. 易地移民搬迁农户的生计恢复力测度及影响因素分析[J]. 西安交通大学学报(社会科学版), 2019, 39(4): 38-47.
Li C, Wang L, Kang B W, et al.Measurement and influencing factors of livelihood resilience of relocated immigrants[J]. Journal of Xi'an Jiaotong University (Social Science), 2019, 39(4): 38-47.
[13] Twine W.Multiple strategies for resilient livelihoods in communal areas of South Africa[J]. African Journal of Range & Forage Science, 2013, 30(1): 39-43.
[14] 冯伟林, 李聪. 易地扶贫搬迁农户生计恢复策略选择的影响因素研究——基于陕西安康的农户调查[J]. 云南民族大学学报(哲学社会科学版), 2020, 37(2): 73-81.
Feng W L, Li C.Factors influencing the choice of the livelihood recovery strategies by the resettled rural households: based on the investigation of Ankang in Shaanxi Province[J]. Journal of Yunnan Minzu University (Social Sciences), 2020, 37(2): 73-81.
[15] 李勇进, 陈文江. 从生计脆弱性到生计恢复力的转化——以民勤绿洲为例[J]. 鄱阳湖学刊, 2015(4): 19-26.
Li Y J, Chen W J.The transformation from livelihood vulnerability to livelihood resilience: a case of Minqin Oasis[J]. Journal of Poyang, 2015(4): 19-26.
[16] Carpenter S, Walker B, Anderies J M, et al.From metaphor to measurement: resilience of what to what?[J]. Ecosystems, 2001, 4(8): 765-781.
[17] Milestad R, Darnhofer I.Building farm resilience: the prospects and challenges of organic farming[J]. Journal of Sustainable Agriculture, 2003, 22(3): 81-97.
[18] Fuchs C.The antagonistic self-organization of modern society[J]. Journal of the Japanese Society of Applied Science, 2004, 14(1): 183-209.
[19] Cooper S J, Wheeler T.Adaptive governance: livelihood innovation for climate resilience in Uganda[J]. Geoforum, 2015, 65: 96-107.
[20] 赵雪雁. 生计资本对农牧民生活满意度的影响——以甘南高原为例[J]. 地理研究, 2011, 30(4): 687-698.
Zhao X Y.The impact of livelihood capital on the life satisfaction of peasants and herdsmen: a case of Gannan Plateau[J]. Geographical Research, 2011, 30(4): 687-698.
[21] 李聪, 高梦. 新型城镇化对易地扶贫搬迁农户生计恢复力影响的实证[J]. 统计与决策, 2019, 35(18): 89-94.
Li C, Gao M.Empirical on impact of new urbanization on rural households’ livelihood resilience under migration and relocation for poverty alleviation[J]. Statistics and Decision, 2019, 35(18): 89-94.

Study on the Measurement of Tea Farmers’ Livelihood Resilience and Influencing Factors: A Case Study of Anxi County

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 0

[1]	YAN Duo, YU Penghui, GONG Yushun. Research Progress on the Impact of Environmental Stresses on Tea Quality during the Withering Process [J]. Journal of Tea Science, 2025, 45(1): 1-14.
[2]	DONG Yuan, ZHANG Yongheng, XIAO Yezi, YU Youben. Cloning of BZR1 Gene Family in Tea Plants and Molecular Mechanism Study of CsBZR1-5 Response to Drought Stress [J]. Journal of Tea Science, 2025, 45(1): 15-28.
[3]	ZHU Qian, SHAO Chenyu, ZHOU Biao, LIU Shuoqian, LIU Zhonghua, TIAN Na. Identification of Tea ICE Gene Family and Cloning and Expression Analysis of CsICE43 under Low-temperature [J]. Journal of Tea Science, 2025, 45(1): 43-60.
[4]	YIN Minghua, ZHANG Mutong, XU Zilin, OUYANG Qian, WANG Meixuan, LI Wenting. Analysis of the Structural Characteristics and Codon Usage Biase of the Mitochondrial Genome in Tea Cultivar ‘Damianbai’ [J]. Journal of Tea Science, 2025, 45(1): 61-78.
[5]	TANG Meijun, LI Hong, ZHANG Xinxin, JIANG Hongxin, WANG Zhibo, GUO Huawei, XIAO Qiang. Determination of the Larval Instar Numbers of the Ectropis grisescens at Different Temperatures [J]. Journal of Tea Science, 2025, 45(1): 79-86.
[6]	CHEN Junhua, WEN Xinru, WANG Chenxu, ZHANG Qiaoqiao, LIU Hongmin, NING Wanguang, GUO Shibao. Predation and Predilection of Eocanthecona furcellata to Larvae of Scopula subpunctaria (Lepidoptera: Geometridae) [J]. Journal of Tea Science, 2025, 45(1): 87-98.
[7]	LI Zailin, PENG Feng, WANG Xingmin, CHEN Xiaosheng. Community Composition and Diversity of Ladybirds (Coleoptera, Coccinellidae) at Different Altitudes in Chaozhou Dancong Tea Regions [J]. Journal of Tea Science, 2025, 45(1): 99-109.
[8]	MA Xueqing, WU Huawei, CAO Chunxia, ZHENG Jiaoli. Screening of Phosphate-solubilizing Bacteria in the Rhizosphere of Tea Gardens and Their Effects on Tea Yield, Quality and Soil Properties [J]. Journal of Tea Science, 2025, 45(1): 110-120.
[9]	LIN Dongyi, HUANG Chong, WANG Weiming, HUANG Yan, FENG Xinkai. Research on Performance Optimization of Tea Residue Powder-Based Triboelectric Nanogenerator and It’s Application in Wind Monitoring System [J]. Journal of Tea Science, 2025, 45(1): 121-132.
[10]	MA Mengjun, HU Xinlong, QIU Shouzhe, ZHANG Ruiming, TANG Huishan, LIU Chen, YU Ziming, LI Jing, WANG Mingle. Comparative Metabolome Analysis of the Main Chemical Compositions in Qingzhuan Tea with Different Storage Years [J]. Journal of Tea Science, 2025, 45(1): 133-144.
[11]	LUO Lulu, ZHAO Yuexi, WANG Yanbo, XING Yi, QI Yang, MA Hongwei, CHENG Linfeng, ZHANG Fanglin. Study on the Effect of Epigallocatechin Gallate Against Hantaan Virus [J]. Journal of Tea Science, 2025, 45(1): 145-156.
[12]	XU Jinping, DU Xuemei, LÜ Wanyi, ZHU Lei, ZHANG Danyang, CHEN Hongping, CHEN Ling, CHAI Yunfeng. Leaching Behavior and Risk Assessment of Seven Different Polar Pesticides in Green Tea during Brewing [J]. Journal of Tea Science, 2025, 45(1): 157-168.
[13]	YANG Hao, TANG Jianuan, DU Shuqi, ZHANG Dou, HU Guang. Assessment of Cultural Ecosystem Services of Xihu Longjing Tea Gardens based on Social Media Data [J]. Journal of Tea Science, 2025, 45(1): 169-180.
[14]	XU Wenluan, WEN Xiaoju, JIA Yuxuan, NI Dejiang, WANG Mingle, CHEN Yuqiong. Identification of Pectin Methylesterase and Its Inhibitory Subfamily Genes, and Functional Analysis of CsPME55 in Response to Fluoride Stress in Camellia sinensis [J]. Journal of Tea Science, 2024, 44(6): 869-886.
[15]	YANG Nan, LI Zhuan, LIU Meichen, MA Junjie, SHI Yuntao, WEI Xiangning, LIN Yangshun, MAO Yuyuan, GAO Shuilian. Studies on the Regulation of EGCG Biosynthesis in Tea Plants by Potassium Nutrition [J]. Journal of Tea Science, 2024, 44(6): 887-900.