Neonicotinoids in global agriculture: evidence for a new pesticide treadmill?

Bakker, Lisette M.; Werf, Wopke Van der; Tittonell, Pablo; Wyckhuys, Kris A.G.; Bianchi, Felix J.J.A.

doi:10.5751/es-11814-250326

Cited by 52 publications

(37 citation statements)

References 99 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Echoing the concerns about DDT raised by Carson, declines in populations of insectivorous birds were found to be associated with higher concentrations of neonicotinoids in the environment ( Hallmann et al, 2014 ). Further, neonicotinoids have been implicated in a new pesticide treadmill, where pesticide resistance and reduced populations of natural enemies lead to increased dependence on chemical control ( Bakker et al, 2020b ). With respect to weed control, the introduction of glyphosate was widely lauded as it was seen as environmentally benign compared with alternative herbicides.…”

Section: The Crises Addressed By Regenerative Agriculturementioning

confidence: 99%

Regenerative Agriculture: An agronomic perspective

Giller¹,

Hijbeek²,

Andersson³

et al. 2021

Outlook Agric

268

166

View full text Add to dashboard Cite

Agriculture is in crisis. Soil health is collapsing. Biodiversity faces the sixth mass extinction. Crop yields are plateauing. Against this crisis narrative swells a clarion call for Regenerative Agriculture. But what is Regenerative Agriculture, and why is it gaining such prominence? Which problems does it solve, and how? Here we address these questions from an agronomic perspective. The term Regenerative Agriculture has actually been in use for some time, but there has been a resurgence of interest over the past 5 years. It is supported from what are often considered opposite poles of the debate on agriculture and food. Regenerative Agriculture has been promoted strongly by civil society and NGOs as well as by many of the major multi-national food companies. Many practices promoted as regenerative, including crop residue retention, cover cropping and reduced tillage are central to the canon of ‘good agricultural practices’, while others are contested and at best niche (e.g. permaculture, holistic grazing). Worryingly, these practices are generally promoted with little regard to context. Practices most often encouraged (such as no tillage, no pesticides or no external nutrient inputs) are unlikely to lead to the benefits claimed in all places. We argue that the resurgence of interest in Regenerative Agriculture represents a re-framing of what have been considered to be two contrasting approaches to agricultural futures, namely agroecology and sustainable intensification, under the same banner. This is more likely to confuse than to clarify the public debate. More importantly, it draws attention away from more fundamental challenges. We conclude by providing guidance for research agronomists who want to engage with Regenerative Agriculture.

show abstract

Section: The Crises Addressed By Regenerative Agriculturementioning

confidence: 99%

Regenerative Agriculture: An agronomic perspective

Giller¹,

Hijbeek²,

Andersson³

et al. 2021

Outlook Agric

268

166

View full text Add to dashboard Cite

show abstract

“…Pesticide resistance has been widely considered as one of the major causes of pesticide dependence [1,9,25,[29][30][31][32][33][53][54][55][56]. Pesticide resistance represents a genetic mechanism whereby pests (including weeds) develop evolutional abilities to adapt to pesticides, and then the same variety and dosage of pesticides do not work on the adapted pests.…”

Section: Pesticide Resistance As An Explanationmentioning

confidence: 99%

“…The evolution of pesticide resistance by insect, pests and weeds has long been taken as the primary natural reason for pesticide dependence and various new varieties of pesticides have been constantly invented to combat the genetic evolutional process [25,[29][30][31][32][33]. However, overemphasizing the natural and technological processes, although important indeed, may conceal more deep-seated socio-economic and political factors in human society, as pesticide dependence 'is first and foremost a social question; technical fixes or regulatory changes will only acquire significance within the framework of serious social change' ( [34], p. 55).…”

Section: Introductionmentioning

confidence: 99%

What Socio-Economic and Political Factors Lead to Global Pesticide Dependence? A Critical Review from a Social Science Perspective

2020

IJERPH

View full text Add to dashboard Cite

Dependence on chemical pesticides has become one of the most pressing challenges to global environmental sustainability and public health. Considerable regulatory efforts have been taken to mitigate pesticide dependence, which however has resulted in a prevalent ‘managerial failure’. Massive pesticide application has generated severe genetic resistance from pests, which has in turn further aggravated pesticide dependence and thus induced agrochemical industries to develop new pesticide varieties. This review proposes to look beyond the resistance-dependence nexus and presents a comprehensive discussion about global pesticide dependence in a social science perspective, i.e., revealing the socio-economic and political factors that reinforce pesticide dependence. These factors are classified into five intertwined themes: (1) agricultural regime, (2) social process of pesticide application, (3) economic analysis, (4) politics and governance, and (5) promotional failure of alternatives. It is found that pesticide dependence is not just a technological issue in the sphere of natural sciences, but more a human-made issue, with deep-seated socio-economic and political reasons. Addressing contemporary trap of global pesticide dependence entails a full acknowledgement and comprehension of the complex and intertwined factors. Furthermore, this review identifies two major explanatory approaches underlying the extant social science literature: a structuralist approach that stresses macro-level structures such as institutions, policies and paradigms, and an individualist approach that focuses on the decision-making of farmers at the micro level. This review recognizes the limitations of the two approaches and calls for transcending the duality. This study advocates a policy framework that emphasizes alignment and coordination from multi-dimensions, multi-actors and multi-scales. For future research, collaborations between natural and social scientists, and more integrated and interdisciplinary approaches should be strengthened.

show abstract

“…In addition, and perhaps paradoxically, treatment of cropping systems with pesticides (e.g., insecticides, fungicides, acaricides, herbicides) may also reinforce subsequent P&P pressure; either by (i) suppressing the natural enemies (e.g., predators/parasitoids) of pest species, thereby creating ecological imbalances that allow pest populations to proliferate, (ii) promoting the evolution of pesticide resistance in some P&P species, and/or (iii) by inducing changes in the tissue biochemistry of crops that render them more susceptible. While the first two of these potential impacts are already welldescribed, and often cited as a causal mechanisms underlying occurrences of "pest resurgence" or "secondary pest outbreak" following pesticide use (e.g., Carson, 1962;Hardin et al, 1995;Bottrell and Schoenly, 2012;Bakker et al, 2020), the third impact has received little attention and is currently much less comprehensively understood.…”

Section: Introductionmentioning

confidence: 99%

When the Medicine Feeds the Problem; Do Nitrogen Fertilisers and Pesticides Enhance the Nutritional Quality of Crops for Their Pests and Pathogens?

Martinez¹,

Loening

Graham

et al. 2021

Front. Sustain. Food Syst.

View full text Add to dashboard Cite

The challenge of maximising agricultural productivity encourages growers to apply high volumes of nitrogen (N) fertilisers and pesticides in order to promote and protect yields. Despite these inputs, pests and pathogens (P&Ps) continue to cause economic losses and challenge food security at local, national, and global scales. P&Ps are a particular problem in industrial agricultural environments, where large-scale monocultures facilitate rapid growth of crop-adapted P&P populations. P&P population growth is strongly dependent upon acquisition of N-resources (e.g., amino acids) from crop tissues, and concentrations of these compounds depend on the metabolic state of the crop which, in turn, is influenced by its growth stage, by environmental conditions, and by agrochemical inputs. In this study we demonstrate that routine applications of pesticides and/or N-fertilisers may inadvertently reinforce the problem of P&P damage in agriculture by enhancing the nutritional quality of crops for these organisms. N-fertilisation has diverse influences on crops' susceptibility to P&P damage; N-fertilisers enhance the nutritional quality and “attractiveness” of crops for P&Ps, and they can also alter crops' expression of the defensive traits (both morphological and chemical) that serve to protect them against these organisms. Exposure of crops to pesticides (including commonly used insecticide, fungicide, and herbicide products) can result in significant metabolic disruption and, consequently, in accumulation of nutritionally valuable amino acids within crop tissues. Importantly, these metabolic changes may not cause visible signs of stress or toxicity in the crop, and may represent an “invisible” mechanism underlying persistent P&P pressure in the field. Given the intensity of their use worldwide, their far-reaching and destructive consequences for wildlife and overall ecosystem health, and the continued prevalence of P&P-associated crop damage in agriculture, we recommend that the impacts of these cornerstone agricultural inputs on the nutritional relationship between crops and their P&Ps are closely examined in order to inform appropriate management for a more secure and sustainable food system.

show abstract

Neonicotinoids in global agriculture: evidence for a new pesticide treadmill?

Cited by 52 publications

References 99 publications

Regenerative Agriculture: An agronomic perspective

Regenerative Agriculture: An agronomic perspective

What Socio-Economic and Political Factors Lead to Global Pesticide Dependence? A Critical Review from a Social Science Perspective

When the Medicine Feeds the Problem; Do Nitrogen Fertilisers and Pesticides Enhance the Nutritional Quality of Crops for Their Pests and Pathogens?

Contact Info

Product

Resources

About