Management practices influence the competitive potential of weed communities and their value to biodiversity in South African vineyards

Weeds have negative impacts on crop production but also play a role in sustaining biodiversity in agricultural landscapes. This trade‐off raises the question of whether it is possible to promote weed communities with low competitive potential but high value to biodiversity. Here, we explored how weed communities respond to different vineyard management practices in South Africa's Western Cape, aiming to identify whether any specific practices are associated with more beneficial weed communities. Eight weed community characteristics representative of abundance, diversity and functional composition were used as indicators of competitive potential and biodiversity value. We explored how these responded to farm management strategy (organic, low input or conventional) and weed management practices (herbicides, tillage, mowing or combinations of these) using ordination and mixed models. Mown sites were associated with weed communities of high biodiversity value, with higher weed cover in both winter and summer, higher diversity and more native weeds. Mowing also promoted shorter weeds than either tillage or herbicides, considered to be less competitive with grapevines. However, high summer weed cover may be problematic where competition for water is critical, in which case tillage offers a method to limit summer weed cover that did not adversely affect diversity or native weeds. In contrast, herbicide‐treated sites had characteristics indicative of a lower biodiversity value and higher potential for competitiveness with few native weeds, lower diversity and relatively tall, small‐seeded weeds. Mowing in winter combined with tillage in spring may thus optimise the biodiversity benefits and production costs of Western Cape vineyard weeds.     

Mapping the drivers of parasitic weed abundance at a national scale: a new approach applied to Striga asiatica in the mid-west of Madagascar

The parasitic weed genus Striga causes huge losses to crop production in sub-Saharan Africa, estimated to be in excess of $7 billion per year. There is a paucity of reliable distribution data for Striga; however, such data are urgently needed to understand current drivers, better target control efforts, as well as to predict future risks. To address this, we developed a methodology to enable rapid, large-scale monitoring of Striga populations. We used this approach to uncover the factors that currently drive the abundance and distribution of Striga asiatica in Madagascar. Two long-distance transects were established across the middle-west region of Madagascar in which S. asiatica abundance in fields adjacent to the road was estimated. Management, crop structure and soil data were also collected. Analysis of the data suggests that crop variety, companion crop and previous crop were correlated with Striga density. A positive relationship between within-field Striga density and the density of the nearest neighbouring fields indicates that spatial configuration and connectivity of suitable habitats is also important in determining Striga spread. Our results demonstrate that we are able to capture distribution and management data for Striga density at a landscape scale and use this to understand the ecological and agronomic drivers of abundance. The importance of crop varieties and cropping patterns is significant, as these are key socio-economic elements of Malagasy cropping practices. Therefore, they have the potential to be promoted as readily available control options, rather than novel technologies requiring introduction.     

An on-farm approach to investigate the impact of diversified crop rotations on weed species richness and composition in winter wheat

Weed species diversity may benefit from organic farming due to enhanced temporal diversification of crop species in a rotation and omission of herbicide applications. However, in intensively managed conventional systems, little evidence exists as to what extent diversified crop rotations contribute to higher weed species richness. Using an on-farm approach, the effect of crop rotation (organic, conventional diverse (CD) and conventional simple (CS) crop rotations) and weed control (with vs. without) on weed species richness, cover, community composition and crop biomass, was analysed in 24 winter wheat fields. Weed species with beneficial functions for invertebrates and birds were analysed separately. Weed species richness was higher in the organic crop rotation, but did not differ between CD and CS crop rotations. Weed control treatment reduced species richness in both conventional rotations, but not in the organic one. Redundancy analyses revealed that crop rotation intensity accounted for the largest part of the explained variation in weed species composition. Results from the study indicate that the maintenance of weed species richness and conservation of species with important ecological functions requires not only temporal diversification of crop species in the rotation, but also an adjustment of weed control strategies.     

不同保护性耕作下冬小麦田杂草滋生情况调查研究

采用随机调查的方法,对不同保护性耕作处理下冬小麦田间杂草的种类和数量进行调查研究,发现不同的耕作处理对杂草种类和数量的消长有很大的影响.传统耕作、免耕、秸秆深松覆盖、高留茬深松覆盖四种处理,以免耕条件下杂草的种类和数量最多,秸秆深松覆盖、高留茬深松覆盖是控制冬小麦田间杂革滋生的一种有效措施.不同保护性耕作处理使冬小麦田间杂草种类与各杂草相对丰度均发生变化,各处理间Shannon多样性指教(H')和Mamclef物种丰富度指数(D)均存在差异,其原因可能是由于不同保护性耕作处理造成各处理间生态环境、土壤养分和土壤水分的不同,各种杂草的生长因而受其不同影响所致.     

A Stable Synthetic Pyrethroid,NRDC 147, and the Control of Spodoptera littoralis

Abstract

Pyrethrins, the botanical insecticides and their synthetic analogues are well known for their power of producing very rapid paralysis (knockdown) in treated insects. The use of pyrethrins or synthetic analogues in agriculture to combat insect pests on field crops has been rather limited. The main reason for this is their non-persistence in field conditions. A recently developed synthetic pyrethroid NRDC 147, which is 10–100 times more stable in light than previous pyrethroids was tested in the laboratory and field against the Egyptian cotton leafworm Spodoptera littoralis (Boisd). Results indicate higher efficiency (LC₅₀ 320 ppm), compared with 460, 422, 1250, 180, 2150 and 265 ppm for cyolane, chlorpyrifos, leptophos, methomyl, monocrotophos and methamidophos respectively. The residual effect (LT₅₀) is more than 7 days in the field for NRDC 147, while it was 5.8, 6.8 and 4.2 for cyolane, leptophos and methamidophos.