Beneficial insects are associated with botanically rich margins with trees on small farms

Arnold, Sarah E. J.; Elisante, Filemon; Mkenda, Prisila A.; Tembo, Yolice; Ndakidemi, Patrick A.; Gurr, Geoff M.; Darbyshire, Iain; Belmain, Steven R.; Stevenson, Philip C.

doi:10.1038/s41598-021-94536-3

Cited by 18 publications

(35 citation statements)

References 49 publications

(54 reference statements)

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“…In light of our results and the abovementioned considerations, we argue that more experimental research should seek to confirm our conclusions and investigate how a reduction of honey bee populations in apple orchards (and thus a lowered reliance on them by growers) could benefit wild bee populations in terms of diversity and functionality, thereby strengthening the ecosystem services they provide. Future studies should include potential confounding effects not measured here, such as latitude or longitude, altitude, local floral resources, landscape context, thinning practices and blossom density, among others (Arnold et al, 2021;Martins et al, 2015;McKerchar et al, 2020). Furthermore, our results advocate for the need to redesign apple orchards and management practices, beyond agricultural input substitution (Joshi et al, 2020;Penvern et al, 2012).…”

Section: Discussionmentioning

confidence: 73%

Dominance of honey bees is negatively associated with wild bee diversity in commercial apple orchards regardless of management practices

Weekers

Marshall

Leclercq

et al. 2022

Agriculture, Ecosystems & Environment

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Commercial apple production relies on managed honey bees (Apis mellifera) for pollination, and on intensive management for pest control. Previous studies have highlighted the potentially detrimental effects of intensive crop management on wild bee diversity in agroecosystems, potentially jeopardizing the pollination services they provide. However, the extent to which honey bee dominance and crop management interact under field-realistic conditions and drive the structure of wild bee assemblages has not been investigated so far. In this study, we measured species richness, as well as the functional and phylogenetic diversity of wild bee assemblages in 36 paired organic and non-organic apple orchards during their flowering season and along a geographic gradient across western Europe. Our results show a strong significant and negative association between honey bee dominance and all wild bee diversity metrics, regardless of local management. Semi-natural habitats had a significant and positive effect on functional diversity, while urbanization and crop cover around the orchards showed no effect on all measured diversity metrics. A greater number of species exhibited less common, or frequent, combinations of functional traits at sites with high honey bee dominance, especially larger bee species with longer tongues. Collectively, we show that wild bee diversity decreases with increasing honey bee dominance, and that this negative association is not buffered by alternative (i.e., organic) management practices in commercial apple orchards. Although organic farming can bring about biodiversity benefits, our study demonstrates that, in the context of commercial apple production, other measures are needed to enhance and harness biodiversity for sustainable and profitable crop production. In particular, a lowered reliance on honey bees and a redesign of orchards through configurational crop heterogeneity and/or the restoration of in-field semi-natural elements are required beyond agricultural input substitution.

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Section: Discussionmentioning

confidence: 73%

Dominance of honey bees is negatively associated with wild bee diversity in commercial apple orchards regardless of management practices

Weekers

Marshall

Leclercq

et al. 2022

Agriculture, Ecosystems & Environment

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“…Arthropods are both pests and beneficial components of agricultural systems [29,[53][54][55]. As such, they can cause crop damage through herbivory but also serve as predators of insect herbivores, thereby providing beneficial services that can increase crop yield.…”

Section: Measuring Plant Arthropod Diversity and Crop Yieldmentioning

confidence: 99%

“…Consequently, the role of remnant natural vegetation and plant diversity in agricultural systems in improving crop yield with limited chemical inputs has received increasing attention [25]. Plant diversity in agricultural systems provides functional diversity that can limit the spread of pathogens and pests and promote beneficial insects for efficient biological control and pollination services [26][27][28][29][30]. Sustainable production of food in poor or developing countries therefore requires diversified agro-ecosystems to control crop herbivory [25,26,31].…”

Section: Introductionmentioning

confidence: 99%

Plant Diversity Increased Arthropod Diversity and Crop Yield in Traditional Agroforestry Systems but Has No Effect on Herbivory

N’Woueni

Gaoue

2022

Sustainability

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Improving agricultural production in response to the increasing food demand remains a major challenge in agroecology. The world has made significant efforts to meet this issue by developing several cultivation techniques, such as the use of chemical fertilizers and arable land conversion into agricultural land. However, most of these techniques have caused a significant loss of biodiversity and ecosystems services. Recent data suggest that biological conservation within and around agroforestry systems are potential solutions that can both reduce biodiversity loss and guarantee crop production. This logic is based on the hypothesis that increasing plant diversity in and around agricultural systems can limit the pest attack rate and increase crop yield. We tested this hypothesis using structural equation modeling on empirical data collected in agroforestry systems around the Pendjari biosphere reserve in West Africa. We measured crop diversity, crop yield, arthropod pest diversity, abundance, the rate of crop herbivory, and the diversity of plants in surrounding natural vegetation in 32 permanent plots. We estimated arthropod diversity and abundance using pitfall traps. We found a direct positive effect for plant diversity and a direct negative effect of arthropod herbivory on crop yield. The diversity of plants in surrounding natural vegetation had a direct positive effect on arthropod pest diversity but a marginal negative direct effect on the rate of crop herbivory. We found no significant direct or indirect effect for crop diversity. Our findings underline the important role of biodiversity conservation in agricultural production improvement. We suggest that the conservation of plant diversity around agroforestry systems may be an effective option to control herbivory damage. Its combination with other pest control techniques may further limit crop depredation and ensure the long-term conservation of wildlife.

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“…For example, natural enemies (NEs) that predate or parasitize insect pests can be a key component of sustainable pest management [ 13 , 14 , 15 ]. NEs benefit from non-crop plants in agricultural systems through the provision of shelter, nectar, and pollen for effective biological control [ 11 , 16 , 17 ]. It is possible to optimize the pest management contribution of NEs by managing field margin plants.…”

Section: Introductionmentioning

confidence: 99%

“…Most studies focus on NE and the floral resource requirements in a specific context; either the benefit of the plants on NE in a controlled environment (e.g., cage), or whether the NE interact in the field with the margin plants and enhance NPR [ 11 , 12 , 16 , 17 ]. However, combining this information could help to better understand which plants will be most valuable in specific approaches supporting conservation biological control.…”

Section: Introductionmentioning

confidence: 99%

Field Margin Plants Support Natural Enemies in Sub-Saharan Africa Smallholder Common Bean Farming Systems

Ndakidemi

Mbega

Ndakidemi

et al. 2022

Plants

Self Cite

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Flower-rich field margins provide habitats and food resources for natural enemies of pests (NEs), but their potential, particularly in the tropics and on smallholder farms, is poorly understood. We surveyed field margins for plant-NE interactions in bean fields. NEs most often interacted with Bidens pilosa (15.4% of all interactions) and Euphorbia heterophylla (11.3% of all interactions). In cage trials with an aphid-infested bean plant and a single flowering margin plant, the survival of Aphidius colemani, the most abundant parasitoid NE in bean fields, was greater in the presence of Euphorbia heterophylla than Bidens pilosa, Tagetes minuta, and Hyptis suaveolens. UV-fluorescent dye was applied to flowers of specific field margin plant species and NE sampled from within the bean crop and field margins using sweep-netting and pan-traps respectively. Captured insects were examined for the presence of the dye, indicative of a prior visit to the margin. Lady beetles and assassin bugs were most abundant in plots with B. pilosa margins; hoverflies with T. minuta and Parthenium hysterophorus margins; and lacewings with T. minuta and B. pilosa margins. Overall, NE benefitted from field margin plants, and those possessing extra floral nectaries had an added advantage. Field margin plants need careful selection to ensure benefits to different NE groups.

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Beneficial insects are associated with botanically rich margins with trees on small farms

Cited by 18 publications

References 49 publications

Dominance of honey bees is negatively associated with wild bee diversity in commercial apple orchards regardless of management practices

Dominance of honey bees is negatively associated with wild bee diversity in commercial apple orchards regardless of management practices

Plant Diversity Increased Arthropod Diversity and Crop Yield in Traditional Agroforestry Systems but Has No Effect on Herbivory

Field Margin Plants Support Natural Enemies in Sub-Saharan Africa Smallholder Common Bean Farming Systems

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