International Centre of Insect Physiology and Ecology (icipe), P.O. Box 30772-00100, Nairobi, Kenya.
Kenya Agricultural and Livestock Research Organization (KALRO), Nairobi, Kenya.
BMC Ecol. 2020 Feb 27;20(1):13. doi: 10.1186/s12898-020-00282-x.
A long-term experiment at two trial sites in Kenya has been on-going since 2007 to assess the effect of organic and conventional farming systems on productivity, profitability and sustainability. During these trials the presence of significant numbers of termites (Isoptera) was observed. Termites are major soil macrofauna and within literature they are either depict as 'pests' or as important indicator for environmental sustainability. The extent by which termites may be managed to avoid crop damage, but improve sustainability of farming systems is worthwhile to understand. Therefore, a study on termites was added to the long-term experiments in Kenya. The objectives of the study were to quantify the effect of organic (Org) and conventional (Conv) farming systems at two input levels (low and high) on the abundance, incidence, diversity and foraging activities of termites.
The results showed higher termite abundance, incidence, activity and diversity in Org-High compared to Conv-High, Conv-Low and Org-Low. However, the termite presence in each system was also dependent on soil depth, trial site and cropping season. During the experiment, nine different termite genera were identified, that belong to three subfamilies: (i) Macrotermitinae (genera: Allodontotermes, Ancistrotermes, Macrotermes, Microtermes, Odontotermes and Pseudocanthotermes), (ii) Termitinae (Amitermes and Cubitermes) and (iii) Nasutitiermitinae (Trinervitermes).
We hypothesize that the presence of termites within the different farming systems might be influenced by the types of input applied, the soil moisture content and the occurrence of natural enemies. Our findings further demonstrate that the organic high input system attracts termites, which are an important, and often beneficial, component of soil fauna. This further increases the potential of such systems in enhancing sustainable agricultural production in Kenya.
自 2007 年以来,肯尼亚的两个试验点一直在进行一项长期试验,以评估有机和常规农业系统对生产力、盈利能力和可持续性的影响。在这些试验中,观察到大量白蚁(白蚁目)的存在。白蚁是主要的土壤大型动物,在文献中,它们要么被描绘为“害虫”,要么被描绘为环境可持续性的重要指标。了解白蚁在多大程度上可以被管理以避免作物受损,但又能提高农业系统的可持续性,这是值得的。因此,在肯尼亚的长期试验中增加了一项关于白蚁的研究。该研究的目的是量化有机(Org)和常规(Conv)农业系统在两个投入水平(低和高)下对白蚁丰度、发生率、多样性和觅食活动的影响。
结果表明,与 Conv-High、Conv-Low 和 Org-Low 相比,Org-High 中的白蚁丰度、发生率、活动和多样性更高。然而,每个系统中的白蚁存在也取决于土壤深度、试验点和作物季节。在实验过程中,共鉴定出九个不同的白蚁属,属于三个亚科:(i)Macrotermitinae(属:Allodontotermes、Ancistrotermes、Macrotermes、Microtermes、Odontotermes 和 Pseudocanthotermes)、(ii)Termitinae(属:Amitermes 和 Cubitermes)和(iii)Nasutitiermitinae(属:Trinervitermes)。
我们假设,不同农业系统中白蚁的存在可能受到所施加的投入类型、土壤含水量和天敌的影响。我们的研究结果进一步表明,高投入的有机系统吸引了白蚁,白蚁是土壤动物群的一个重要且通常有益的组成部分。这进一步增加了这些系统在提高肯尼亚可持续农业生产方面的潜力。