Bibliography Tag: full text available

Bibliography Index

Hendershot et al., 2020

Hendershot, J. Nicholas, Smith, Jeffrey R., Anderson, Christopher B., Letten, Andrew D., Frishkoff, Luke O., Zook, Jim R., Fukami, Tadashi, & Daily, Gretchen C.; “Intensive farming drives long-term shifts in avian community composition;” Nature, 2020, 579(7799), 393-396; DOI: 10.1038/s41586-020-2090-6.

ABSTRACT:

Agricultural practices constitute both the greatest cause of biodiversity loss and the greatest opportunity for conservation. However, little is known about the long-term effects of alternative , given the shrinking scope of protected areas in many regions. Recent studies have documented the high levels of biodiversity— across many taxa and biomes—that agricultural landscapes can support over the short term agricultural practices on ecological communities. Here we document changes in bird communities in intensive-agriculture, diversified-agriculture and natural-forest habitats in 4 regions of Costa Rica over a period of 18 years. Long-term directional shifts in bird communities were evident in intensive- and diversified-agricultural habitats, but were strongest in intensive-agricultural habitats, where the number of endemic and International Union for Conservation of Nature (IUCN) Red List species fell over time. All major guilds, including those involved in pest control, pollination and seed dispersal, were affected. Bird communities in intensive-agricultural habitats proved more susceptible to changes in climate, with hotter and drier periods associated with greater changes in community composition in these settings. These findings demonstrate that diversified agriculture can help to alleviate the long-term loss of biodiversity outside natural protected areas. FULL TEXT
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Silva et al., 2018

Silva, V., Montanarella, L., Jones, A., Fernandez-Ugalde, O., Mol, H. G. J., Ritsema, C. J., & Geissen, V.; “Distribution of glyphosate and aminomethylphosphonic acid (AMPA) in agricultural topsoils of the European Union;” Science of The Total Environment, 2018, 621, 1352-1359; DOI: 10.1016/j.scitotenv.2017.10.093.

ABSTRACT:

Approval for glyphosate-based herbicides in the European Union (EU) is under intense debate due to concern about their effects on the environment and human health. The occurrence of glyphosate residues in European water bodies is rather well documented whereas only few, fragmented and outdated information is available for European soils. We provide the first large-scale assessment of distribution (occurrence and concentrations) of glyphosate and its main metabolite aminomethylphosphonic acid (AMPA) in EU agricultural topsoils, and estimate their potential spreading by wind and water erosion. Glyphosate and/or AMPA were present in 45% of the topsoils collected, originating from eleven countries and six crop systems, with a maximum concentration of 2mgkg(-1). Several glyphosate and AMPA hotspots were identified across the EU. Soil loss rates (obtained from recently derived European maps) were used to estimate the potential export of glyphosate and AMPA by wind and water erosion. The estimated exports, result of a conceptually simple model, clearly indicate that particulate transport can contribute to human and environmental exposure to herbicide residues. Residue threshold values in soils are urgently needed to define potential risks for soil health and off site effects related to export by wind and water erosion. FULL TEXT

Smith et al., 2020

Smith, Dylan B., Arce, Andres N., Ramos Rodrigues, Ana, Bischoff, Philipp H., Burris, Daisy, Ahmed, Farah, & Gill, Richard J.; “Insecticide exposure during brood or early-adult development reduces brain growth and impairs adult learning in bumblebees;” Proceedings of the Royal Society B: Biological Sciences, 2020, 287(1922); DOI: 10.1098/rspb.2019.2442.

ABSTRACT:

For social bees, an understudied step in evaluating pesticide risk is how contaminated food entering colonies affects residing offspring development and maturation. For instance, neurotoxic insecticide compounds in food could affect central nervous system development predisposing individuals to become poorer task performers later-in-life. Studying bumblebee colonies provisioned with neonicotinoid spiked nectar substitute, we measured brain volume and learning behaviour of 3 or 12-day old adults that had experienced in-hive exposure during brood and/or early-stage adult development. Micro-computed tomography scanning and segmentation of multiple brain neuropils showed exposure during either of the developmental stages caused reduced mushroom body calycal growth relative to unexposed workers. Associated with this was a lower probability of responding to a sucrose reward and lower learning performance in an olfactory conditioning test. While calycal volume of control workers positively correlated with learning score, this relationship was absent for exposed workers indicating neuropil functional impairment. Comparison of 3- and 12-day adults exposed during brood development showed a similar degree of reduced calycal volume and impaired behaviour highlighting lasting and irrecoverable effects from exposure despite no adult exposure. Our findings help explain how the onset of pesticide exposure to whole colonies can lead to lag-effects on growth and resultant dysfunction. FULL TEXT

Dimitrov et al., 2006

Dimitrov, B. D., Gadeva, P. G., Benova, D. K., & Bineva, M. V.; “Comparative genotoxicity of the herbicides Roundup, Stomp and Reglone in plant and mammalian test systems;” Mutagenesis, 2006, 21(6), 375-382; DOI: 10.1093/mutage/gel044.

ABSTRACT:

The genotoxicities of the herbicides Roundup (glyphosate), Stomp (pendimethaline) and Reglone (diquat), were compared in plant (Crepis capillaris L.) and mouse bone marrow test systems using chromosomal aberrations and micronuclei. Roundup did not induce chromosomal aberrations or micronuclei in either test system. Reglone also did not induce chromosomal aberrations in either test system; however, it increased micronucleus frequency in both plant cells and mouse bone marrow polychromatic erythrocytes (PCEs). The responses of the two test systems to Stomp were quite different. Stomp did not induce chromosomal aberrations in the plant cells, but increased their incidence in mouse cells; Stomp increased the frequency of micronuclei in both test systems. The induction of micronuclei in plant cells may have been due to the spindle-destroying effect of the herbicide, since all concentrations of Stomp produced C-mitoses. The increased chromosomal aberration frequency in mouse bone marrow cells observed at later sampling times after administration of Stomp into animals suggests that the induction of aberrations may be due to biosynthesis of genotoxic metabolites. This conclusion was supported by the coincidence between the frequencies of chromosomal aberrations and of micronucleated PCEs in mouse cells. These data indicate that plant and animal assays are differentially responsive to some pesticides, and these differences may be due to metabolism and their responses to mitotic spindle disruption. FULL TEXT

Sviridov et al., 2015

Sviridov, A. V., Shushkova, T. V., Ermakova, I. T., Ivanova, E. V., Epiktetov, D. O., & Leont’evskii, A. A.; “[Microbial degradation of glyphosate herbicides (review)];” Prikl Biokhim Mikrobiol, 2015, 51(2), 183-190; DOI: 10.7868/s0555109915020221.

ABSTRACT:

This review analyzes the issues associated with biodegradation of glyphosate (N-(phosphonomethyl)glycine), one of the most widespread herbicides. Glyphosate can accumulate in natural environments and can be toxic not only for plants but also for animals and bacteria. Microbial transformation and mineralization of glyphosate, as the only means of its rapid degradation, are discussed in detail. The different pathways of glyphosate catabolism employed by the known destructing bacteria representing different taxonomic groups are described. The potential existence of alternative glyphosate degradation pathways, apart from those mediated by C-P lyase and glyphosate oxidoreductase, is considered. Since the problem of purifying glyphosate-contaminated soils and water bodies is a topical issue, the possibilities of applying glyphosate-degrading bacteria for their bioremediation are discussed. FULL TEXT

Boobis et al., 2008

Boobis, A. R., Ossendorp, B. C., Banasiak, U., Hamey, P. Y., Sebestyen, I., & Moretto, A.; “Cumulative risk assessment of pesticide residues in food;” Toxicology Letters, 2008, 180(2), 137-150; DOI: 10.1016/j.toxlet.2008.06.004.

ABSTRACT:

There is increasing need to address the potential risks of combined exposures to multiple residues from pesticides in the diet. The available evidence suggests that the main concern is from dose addition of those compounds that act by the same mode of action. The possibility of synergy needs to be addressed on a case-by-case basis, where there is a biologically plausible hypothesis that it may occur at the levels of residues occurring in the diet. Cumulative risk assessment is a resource-intense activity and hence a tiered approach to both toxicological evaluation and intake estimation is recommended, and the European Food Safety Authority (EFSA) has recently published such a proposal. Where assessments have already been undertaken by some other authority, full advantage should be taken of these, subject of course to considerations of quality and relevance. Inclusion of compounds in a cumulative assessment group (CAG) should be based on defined criteria, which allow for refinement in a tiered approach. These criteria should include chemical structure, mechanism of pesticidal action, target organ and toxic mode of action. A number of methods are available for cumulating toxicity. These are all inter-related, but some are mathematically more complex than others. The most useful methods, in increasing levels of complexity and refinement, are the hazard index, the reference point index, the Relative Potency Factor method and physiologically based toxicokinetic modelling, although this last method would only be considered should a highly refined assessment be necessary. Four possible exposure scenarios are of relevance for cumulative risk assessment, acute and chronic exposure in the context of maximum residue level (MRL)-setting, and in relation to exposures from the actual use patterns, respectively. Each can be addressed either deterministically or probabilistically. Strategies for dealing with residues below the limit of detection, limit of quantification or limit of reporting need to be agreed. A number of probabilistic models are available, but some of there are geographically constrained due to the underlying datasets used in their construction. Guidance on probabilistic modelling needs to be finalised. Cumulative risk assessments have been performed in a number of countries, on organophosphate insecticides alone (USA) or together with carbamates (UK, DK, NL), triazines, chloroacetanilides, carbamates alone (USA), and all pesticides (DE). All identifiable assumptions and uncertainties should be tabulated and evaluated, at least qualitatively. Those likely to have a major impact on the outcome of the assessment should be examined quantitatively. In cumulative risk assessment, it is necessary, as in other risk assessments, for risk managers to consider what level of risk would be considered “acceptable”, for example what percentile of the population should be below the reference value. Criteria for prioritising CAGs for cumulative risk assessment include frequency of detection in monitoring programmes, high usage, high exposure relative to the reference value, large number of compounds (e.g. five or more) in a group. FULL TEXT

Curl et al., 2020

Curl, C. L., Spivak, M., Phinney, R., & Montrose, L.; “Synthetic Pesticides and Health in Vulnerable Populations: Agricultural Workers;” Current Environmental Health Reports, 2020, 7(1), 13-29; DOI: 10.1007/s40572-020-00266-5.

ABSTRACT:

PURPOSE OF REVIEW: This review aims to summarize epidemiological literature published between May 15, 2018, and May 14, 2019, that examines the relationship between exposure to synthetic pesticides and health of agricultural workers.

RECENT FINDINGS: Current research suggests that exposure to synthetic pesticides may be associated with adverse health outcomes. Agricultural workers represent a potentially vulnerable population, due to a combination of unique social and cultural risk factors as well as exposure to hazards inherent in agricultural work. Pesticide exposure among agricultural workers has been linked to certain cancers, DNA damage, oxidative stress, neurological disorders, and respiratory, metabolic, and thyroid effects.

SUMMARY: This review describes literature suggesting that agricultural workers exposed to synthetic pesticides are at an increased risk of certain cancers and neurological disorders. Recent research on respiratory effects is sparse, and more research is warranted regarding DNA damage, oxidative stress, metabolic outcomes, and thyroid effects. FULL TEXT

Vineis, 2019

Vineis, P.; “Public Health and Independent Risk Assessment;” American Journal of Public Health, 2019, 109(7), 978-980; DOI: 10.2105/AJPH.2019.305142.

FULL TEXT

Samet, 2019

Samet, J. M.; “Expert Review Under Attack: Glyphosate, Talc, and Cancer;” American Journal of Public Health, 2019, 109(7), 976-978; DOI: 10.2105/AJPH.2019.305131.

FULL TEXT

Morabia, 2019

Morabia, A.; “Fighting Independent Risk Assessment of Talc and Glyphosate: Whose Benefit Is It Anyway?;” American Journal of Public Health, 2019, 109(7), 955-956; DOI: 10.2105/AJPH.2019.305144.

FULL TEXT

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