2025-05-22 コペンハーゲン大学 (UCPH)
<関連情報>
- https://news.ku.dk/all_news/2025/05/ox-eye-daisy-bellis-and-yarrow-flower-strips-with-at-least-two-sown-species-provide-70-percent-more-natural-enemies-of-pests/
- https://www.sciencedirect.com/science/article/pii/S0167880924005309
- https://www.sciencedirect.com/science/article/pii/S0167880925002701
多様性の高い花条は一年生畑作物において天敵をより促進する: 総説とメタ分析 Highly diverse flower strips promote natural enemies more in annual field crops: A review and meta-analysis
Nika Jachowicz, Lene Sigsgaard
Agriculture, Ecosystems & Environment Available online: 3 December 2024
DOI:https://doi.org/10.1016/j.agee.2024.109412
Highlights
- We conducted a meta-analysis of 26 studies on the effects of flower strips on pest and/or natural enemy populations.
- Overall flower strips increased natural enemies by 48 %.
- The effect of flower strips on natural enemies increased significantly with increased flower mixture diversity.
- The effect of flower strips on pests was more variable and not significant.
- This field of research is still new and more standardized protocols for data collection are needed to aid interpretation.
Abstract
Landscape fragmentation, loss of habitat and pesticide use have caused a loss of arthropod biodiversity and disrupted biological control. For annual field crops such as cereals, oil seed and vegetables, this issue is exacerbated by high landscape homogeneity and frequent soil disturbance. Pest control with insecticides has negatively affected biological control, and regulation of pesticides reduces growers’ access to chemical control of insect pests. Flower strips can be used to increase biodiversity in arable landscapes and augment populations of natural enemies and potentially improve biological control of crop pests. This review aims to synthesize the knowledge on the contribution by flower strips in annual field crops to natural enemy populations, and pest regulation, and assess the importance of flower strip composition. After screening literature for studies comparing flower strip margins to a control of grass margin, we found 24 studies, including 382 trials, which measured the natural enemy abundance near a flower strip and control, and 10 articles, including 79 trials, which assessed the effect of flower strip margin versus control margin on pest control. Overall, results found that flower strips showed no significant effect on natural enemy abundance, however when examining flower strips with more than two sown species, the effect was significant, corresponding to a 51 %, ±13.7 SE, (p=0.001). The effect of the flower strips increases significantly with increasing number of sown species at a rate of 3.5 %±0.65 for every flower species added to the mix. The effect of flower strips on pest populations was more variable and did not show a significant trend. For future studies on the contribution of diversification to biological control, we propose a protocol for data collection and reporting of study details such as the realized botanical composition of the flower strip and control.
