Climate-Smart Conservation Agriculture, Farm Values and Tenure Security: Implications for Climate Change Adaptation and Mitigation in the Congo Basin

IF 1.7 4区 环境科学与生态学 Q2 BIODIVERSITY CONSERVATION
E. Molua, D. Sonwa, Y. Bele, B. Foahom, Jean Pierre Mate Mweru, Salomon Mampeta Wa Bassa, M. Gapia, Félix Ngana, A. E. Joe, E. M. Masumbuko
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Abstract

Background and Research Aims: Agriculture through deforestation is an important threat to biodiversity conservation in the Congo Basin’s tropical forest. The policy challenge is not only to promote adaptation to perceived climate change but also to promote forest conservation. The aim of this study is to provide empirical evidence on the impact of farm-level investments in climate-smart agricultural practices related to conservation agriculture in some Congo Basin countries. The hypothesis is that property rights to land and trees play a fundamental role in governing the patterns of investment, forestland management for conservation, as well as in the profitability of agriculture. Methods: A Simulated Maximum Likelihood Estimation using a Mixed Logit model is used to test farmers’ choice of agricultural system and a farmland value model for each agricultural system which includes determinants of tenure or property rights, climate, soils, and socioeconomic variables such as education and gender. The data was collected from more than 600 farms covering 12 regions and 45 divisions in 3 countries, Cameroon, the Central African Republic and the Democratic Republic of Congo. Results: Farmers choose one of three agricultural systems to maximize farm profit mindful of the current tenure regime and environmental conditions. Conservation agriculture techniques within climate-smart practices show benefits for smallholder farmers through improvements in soil health, soil moisture retention and enhanced crop yields. The rights to access, withdraw, manage, as well as exclude others from land and trees affect both the farmers' choice of system and the profit earned from the chosen system. Conclusion: Farm-level investments improve farm incomes and enhance conservation effort for farmers perceiving climate change. Implications for Conservation: Climate change adaptation through planting of trees improves soil stability, restores ecosystems and creates a safe haven for biodiversity. Secure land tenure promotes better forestland management and reduces land degradation in vulnerable communities.
气候智能保护农业、农场价值和保有权安全:对刚果盆地适应和缓解气候变化的影响
背景和研究目的:通过砍伐森林进行农业是对刚果盆地热带森林生物多样性保护的重要威胁。政策上的挑战不仅是促进对感知到的气候变化的适应,而且是促进森林保护。本研究的目的是为一些刚果盆地国家的农场层面投资对与保护性农业相关的气候智能农业实践的影响提供经验证据。该假说认为,土地和树木的产权在管理投资模式、保护林地管理以及农业盈利方面发挥着根本作用。方法:使用混合Logit模型的模拟最大似然估计用于测试农民对农业系统的选择,以及每个农业系统的农田价值模型,该模型包括保有权或产权、气候、土壤和社会经济变量(如教育和性别)的决定因素。数据来自喀麦隆、中非共和国和刚果民主共和国3个国家的12个地区和45个分部的600多个农场。结果:考虑到当前的保有制度和环境条件,农民从三种农业制度中选择一种,以最大限度地提高农场利润。气候智能实践中的保护性农业技术通过改善土壤健康、土壤保湿和提高作物产量,为小农户带来了好处。进入、退出、管理以及将他人排除在土地和树木之外的权利既影响农民对制度的选择,也影响从所选择的制度中获得的利润。结论:农场层面的投资提高了农场收入,并加强了感知气候变化的农民的保护工作。对保护的影响:通过植树造林适应气候变化可以提高土壤稳定性,恢复生态系统,并为生物多样性创造一个安全的避难所。有保障的土地保有权有助于更好地管理林地,减少脆弱社区的土地退化。
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来源期刊
Tropical Conservation Science
Tropical Conservation Science BIODIVERSITY CONSERVATION-
CiteScore
3.60
自引率
5.90%
发文量
16
审稿时长
>12 weeks
期刊介绍: Tropical Conservation Science is a peer-reviewed, open access journal that publishes original research papers and state-of-the-art reviews of broad interest to the field of conservation of tropical forests and of other tropical ecosystems.
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