害虫控制的最佳有机农业扩展方案:建模方法

Thomas Delattre, Mohamed-Mahmoud Memah, Pierre Franck, Pierre Valsesia, Claire Lavigne
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摘要

有机农业(OF)最近一直在扩大,以应对日益增长的消费者需求和环境问题。预计未来OF下的面积将进一步增加。有机作物和传统作物中,有机肥扩张对害虫密度的影响仍然难以预测,因为扩张会影响保护生物防治(CBC),这取决于周围的景观(即作物花叶和半自然生境)。为了更好地了解和预测农作扩展过程中害虫及其生物防治的变化规律,本文模拟了不同耕作方式对害虫及其天敌种群动态的影响。以50%有机农田为目标,通过对常规农田的逐步改造,研究了三种不同方案对害虫密度和食虫比的影响。分别为:1)孤立常规油田优先转换(IP); 2)常规油田群内常规油田优先转换(GP); 3)常规油田随机转换(RD)。我们将中性的空间显式景观模型与捕食者-猎物模型相结合,以模拟害虫与天敌捕食者相互作用的动态。3种OF扩展情景分别适用于9种不同比例和半自然生境破碎度的景观背景。我们进一步研究了不同情景的排序是否对农田害虫控制方法和害虫和捕食者的扩散能力具有鲁棒性。我们发现,在大多数景观背景和of扩展情景的组合中,有机农业扩展对捕食者密度的影响大于害虫密度。在有机农田和具有高度破碎化半自然生境的景观中,有机肥扩张对最终害虫和捕食者密度的影响也大于常规农田。基于害虫密度和捕食者/害虫比,我们的研究结果表明,以孤立的常规农田(场景IP)为重点的逐步有机转化有助于促进CBC。当有害生物管理在有机作物中的效率大大低于传统作物时,以及在半自然生境比例较低的景观中,对of扩展进行仔细的景观规划是最必要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Best organic farming expansion scenarios for pest control: a modeling approach
Organic Farming (OF) has been expanding recently in response to growing consumer demand and as a response to environmental concerns. The area under OF is expected to further increase in the future. The effect of OF expansion on pest densities in organic and conventional crops remains difficult to predict because OF expansion impacts Conservation Biological Control (CBC), which depends on the surrounding landscape (i.e. both the crop mosaic and semi-natural habitats). In order to understand and forecast how pests and their biological control may vary during OF expansion, we modeled the effect of spatial changes in farming practices on population dynamics of a pest and its natural enemy. We investigated the impact on pest density and on predator to pest ratio of three contrasted scenarios aiming at 50% organic fields through the progressive conversion of conventional fields. Scenarios were 1) conversion of Isolated conventional fields first (IP), 2) conversion of conventional fields within Groups of conventional fields first (GP), and 3) Random conversion of conventional field (RD). We coupled a neutral spatially explicit landscape model to a predator-prey model to simulate pest dynamics in interaction with natural enemy predators. The three OF expansion scenarios were applied to nine landscape contexts differing in their proportion and fragmentation of semi-natural habitat. We further investigated if the ranking of scenarios was robust to pest control methods in OF fields and pest and predator dispersal abilities. We found that organic farming expansion affected more predator densities than pest densities for most combinations of landscape contexts and OF expansion scenarios. The impact of OF expansion on final pest and predator densities was also stronger in organic than conventional fields and in landscapes with large proportions of highly fragmented semi-natural habitats. Based on pest densities and the predator to pest ratio, our results suggest that a progressive organic conversion with a focus on isolated conventional fields (scenario IP) could help promote CBC. Careful landscape planning of OF expansion appeared most necessary when pest management was substantially less efficient in organic than in conventional crops, and in landscapes with low proportion of semi-natural habitats.
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