利用农业生理模型研究西非山药种子系统的预期产量和经济效益

IF 3.7 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Denis Cornet, Jorge Sierra, Régis Tournebize, Komivi Dossa, Benoît Gabrielle
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引用次数: 0

摘要

山药是一种主要的热带块根作物,也是西非数百万人的主食。本研究中使用的模型表明,推广使用改良种块茎将有助于提高农民的产量和盈利能力。这可以改善粮食安全,增加收入和提高生活水平。此外,该模型还为农民和技术人员提供了一个有用的决策支持工具,可以根据品种、最佳种块茎重量和种植日期进行选择。这项研究为西非投资改良山药种植材料提供了农艺学论据。山药(薯蓣属)是一种主要的热带块根作物,主要在西非使用传统的粗放技术种植。农民通常会重复使用种块茎,将高达30%的产量留到下一季,导致种植材料的高度可变性,影响产量。有几项倡议旨在促进改良种块茎的使用。然而,为了帮助它们的采用,有必要量化其农艺和经济优势。为了解决这个问题,在2007年至2009年在贝宁进行的六次实验的基础上,开发了一个单株植物生长和发育的模型。该模型模拟了出苗(通过光周期和温度)和种块茎重对山药植株生长发育的综合影响。其预测值与观测到的块茎产量高度相关(r2 >0.83)。结果强调了种子-块茎生理年龄和光周期敏感性等关键过程的关键作用。研究表明,在传统种植日期,使用改良种植材料可使山药和圆形山药的产量分别提高22% ~ 27%,盈利能力分别提高30%和40%。该模型被证明是一个有用的决策支持工具,可以根据品种和种植日期选择最佳的种块茎重量。这项研究验证了西非对山药种子系统的投资。然而,除了种子大小和健康外,还需要考虑其他因素,如休眠、储存时间及其管理,以解决出苗期异质性及其对产量的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Expected yield and economic improvements of a yam seed system in West Africa using agro‐physiological modelling
Societal Impact Statement Yam is a major tropical root crop and a staple food for millions of people in West Africa. The model used in this study shows that promoting the use of improved seed tubers would help increase yields and profitability for farmers. This could lead to improved food security, increased income and higher standards of living. Additionally, the model serves as a useful decision‐support tool for farmers and technicians to choose, depending on the species, the optimum seed‐tuber weight and planting date. This study provides agronomic arguments to justify investments in the improvement of yam planting materials in West Africa. Summary Yam ( Dioscorea spp.) is a major tropical root crop, grown mainly in West Africa using traditional extensive techniques. Farmers typically reuse seed tubers by setting aside up to 30% of their production for the next season, leading to high planting material variability that affects yields. Several initiatives aim to promote the use of improved seed tubers. However, to help their adoption, it is necessary to quantify the agronomic and economic advantages. To address this, a model for individual plant growth and development was developed based on six experiments in Benin from 2007 to 2009. This model simulates the combined effect of emergence (through photoperiod and temperature) and seed‐tuber weight on yam plant growth and development. Its predictions were highly correlated with observed plant tuber yield ( R 2 > 0.83). Results highlight the crucial role of key processes such as seed‐tuber physiological age and photoperiod sensitivity. The study shows that for the traditional planting dates, the use of improved planting material could lead to a yield increase of 22%–27% and a gain in profitability of 30% and 40% for Dioscorea alata and Dioscorea rotundata , respectively. The model proved to be a useful decision‐support tool for choosing an optimum seed‐tuber weight, depending on the species and the planting date. This study validates investments in yam seed systems in West Africa. However, beyond seed size and health, other factors such as dormancy, storage time and their management need to be considered to address emergence heterogeneity and its impact on yield.
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来源期刊
CiteScore
9.90
自引率
5.90%
发文量
81
审稿时长
12 weeks
期刊介绍: Plants, People, Planet aims to publish outstanding research across the plant sciences, placing it firmly within the context of its wider relevance to people, society and the planet. We encourage scientists to consider carefully the potential impact of their research on people’s daily lives, on society, and on the world in which we live. We welcome submissions from all areas of plant sciences, from ecosystem studies to molecular genetics, and particularly encourage interdisciplinary studies, for instance within the social and medical sciences and chemistry and engineering.
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