Diversification practices: their effect on pest regulation and production

Poveda, Katja; Gómez, María Pilar Romero; Martínez, Eliana

doi:10.25100/socolen.v34i2.9269

Cited by 113 publications

(23 citation statements)

References 93 publications

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“…Plant‐insect interactions, including herbivory, shape the functioning of terrestrial ecosystems worldwide (Yang & Gratton, 2014; Cardoso et al, 2020). From crop yield reduction by agricultural pests (Poveda et al, 2008; Mitchell et al, 2016; Bisht et al, 2019) to boom‐bust cycles of beetles that can restructure entire forests (Brockerhoff & Liebhold, 2017; Goodsman et al, 2017; Fernandez‐Conradi et al, 2021), insects have profound effects on individual plants, plant populations, and communities. How plants defend themselves against attack by a diverse and unrelenting array of herbivores therefore remains an active area of research with far‐reaching ecological and evolutionary consequences.…”

Section: Introductionmentioning

confidence: 99%

Using biological invasions to improve plant defense theory

Endriss

Alba

Hufbauer

2022

Entomologia Exp Applicata

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Theory to explain how plants defend themselves against herbivorous insects is rich, but can be difficult to test. Biological invasions provide unique opportunities to test and improve upon plant defense theory, as plants experience predictable shifts in insect herbivory after introduction to a new range. Here, we use an invasion to evaluate the power of three cornerstone hypotheses to predict the evolution of defense against herbivorous insects. These three hypotheses represent increasing refinements of classic plant-insect theory regarding optimal defense, and each rests on the same three assumptions: that introduced plant populations escape natural enemies, that insect herbivory reduces plant fitness, and that putative defenses decrease herbivory. These assumptions remain untested in most invasions, which likely contributes to conflicting support for many plant defense hypotheses. We provide evidence that these assumptions are met in common mullein, Verbascum thapsus L. (Scrophulariaceae), which we propose can thus be used as a model system to test plant defense theory. We find that the hypothesis that integrates predictions of within-plant optimal defense theory and the evolutionary dilemma model (i.e., the 'shifting defense allocation' hypothesis) provides strong insights into both invasion and evolution of plant defense. Specifically, we show that introduced populations that escape important specialist herbivores increase the concentration of secondary compounds in high-quality tissue in particular, in this case protecting valuable young leaves from generalist herbivores that dominate in the introduced range. We would not have detected this shift without exploring within-plant defense allocation across native and introduced populations, a task rarely undertaken when assessing evolutionary change in plant defenses. This finding provides broad insight into how native and introduced plant populations alike may respond to shifts in herbivore pressure. We close by highlighting future directions of inquiry using introduced plant populations to develop and test plant defense theory more generally.

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Section: Introductionmentioning

confidence: 99%

Using biological invasions to improve plant defense theory

Endriss

Alba

Hufbauer

2022

Entomologia Exp Applicata

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“…Wildflower interventions, employing native species adapted to local environments, can boost the abundance of beneficial arthropods, and the use of perennial species delivers greater consistency in floral resources throughout the year and between years (Isaacs et al, 2009). Deploying native perennial wildflower habitat in sweet cherry orchards has the potential to support natural enemies and reduce the incidence of pests, reduce the need for pesticides, and increase crop yields (Poveda et al, 2008;Redlich et al, 2018;McKerchar et al, 2020). However, there is concern that wildflower areas can harbour disease and be difficult to manage in cropped areas (Kleijn et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Active management of wildflower strips in commercial sweet cherry orchards enhances natural enemies and pest regulation services

Mateos‐Fierro

Fountain

Garratt

et al. 2021

Agriculture, Ecosystems & Environment

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“…Agroforestry is based on increasing tree diversity in agricultural fields, thus providing important ecosystem services such as carbon sequestration, nutrient cycling, soil fertility, drought resistance, weed and pest control and even mitigate effects of rising temperatures due to climate change (Gomes et al, 2020;Jha et al, 2011;Perfecto et al, 2007Perfecto et al, , 1996Pumariño et al, 2015;Souza et al, 2012;Zhang et al, 2007). The major bottleneck in implementation of agroforestry systems and other plant diversification strategies is that they do not always translate into increased yield (Poveda et al, 2008;Zhang et al, 2007). Indeed, some studies show that increased diversification in crop fields can lead to lower crop production (Letourneau et al, 2011;Poveda et al, 2008), whereas a recent meta-analysis shows that increased plant diversification in agricultural systems does not result in overall significant yield loss (Tamburini et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

“…The major bottleneck in implementation of agroforestry systems and other plant diversification strategies is that they do not always translate into increased yield (Poveda et al, 2008;Zhang et al, 2007). Indeed, some studies show that increased diversification in crop fields can lead to lower crop production (Letourneau et al, 2011;Poveda et al, 2008), whereas a recent meta-analysis shows that increased plant diversification in agricultural systems does not result in overall significant yield loss (Tamburini et al, 2020). Yet, on-farm diversification has to be designed to support functional biodiversity, provide intended ecosystem services (Landis et al, 2000) and maintain or increase production (Poveda et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…Several hypotheses have been put forward to explain how vegetation diversity can enhance pest control. Increased plant diversity may attract pests away from the crops and increase mortality of the pest due to enhancement of natural enemies (Begg et al, 2017;Gurr et al, 2017;Perović et al, 2018;Poveda et al, 2008;Root, 1973). The underlying ecological mechanisms that explain aggregation and improvement of natural enemies in more diversified habitats are not completely explored (Perović et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

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