Agricultural intensification and childhood cancer in Brazil

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Significance

Pesticides are critical to agricultural intensification but can negatively impact human health. We show that as soy cultivation spread across Brazil, agricultural pesticide exposure was associated with increased childhood cancer mortality among the broader population indirectly exposed to these chemicals. We find that populations were exposed to pesticides through the water supply, but negative health effects were mitigated by access to high-quality cancer treatment centers. Our results support policies to strengthen pesticide regulation, especially in contexts intensifying their food production systems, and increased public health attention to pesticide exposure in the broader community.

Abstract

Over the last several decades, Brazil has become both the world’s leading soy producer and the world’s leading consumer of hazardous pesticides. Despite identified links between pesticide exposure and carcinogenesis, there has been little population-level research on the effects of pesticide intensification on broader human health in Brazil. We estimate the relationship between expanded soy production—and related community exposure to pesticides—on childhood cancer incidence using 15 y of data on disease mortality. We find a statistically significant increase in pediatric leukemia following expanded local soy production, but timely access to treatment mitigates this relationship. We show that pesticide exposure likely occurs via water supply penetration. Our findings represent only the tip of the iceberg for substantial health externalities of high-input crop production and land use change. Our results are of particular interest in developing contexts with demand for intensified food production systems and underscore the need for stronger regulation of pesticides and increased public health attention to exposure in the broader community.

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Most cited references 42

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Global food demand and the sustainable intensification of agriculture.

David Tilman, Christian Balzer, Jason Hill … (2011)

Global food demand is increasing rapidly, as are the environmental impacts of agricultural expansion. Here, we project global demand for crop production in 2050 and evaluate the environmental impacts of alternative ways that this demand might be met. We find that per capita demand for crops, when measured as caloric or protein content of all crops combined, has been a similarly increasing function of per capita real income since 1960. This relationship forecasts a 100-110% increase in global crop demand from 2005 to 2050. Quantitative assessments show that the environmental impacts of meeting this demand depend on how global agriculture expands. If current trends of greater agricultural intensification in richer nations and greater land clearing (extensification) in poorer nations were to continue, ~1 billion ha of land would be cleared globally by 2050, with CO(2)-C equivalent greenhouse gas emissions reaching ~3 Gt y(-1) and N use ~250 Mt y(-1) by then. In contrast, if 2050 crop demand was met by moderate intensification focused on existing croplands of underyielding nations, adaptation and transfer of high-yielding technologies to these croplands, and global technological improvements, our analyses forecast land clearing of only ~0.2 billion ha, greenhouse gas emissions of ~1 Gt y(-1), and global N use of ~225 Mt y(-1). Efficient management practices could substantially lower nitrogen use. Attainment of high yields on existing croplands of underyielding nations is of great importance if global crop demand is to be met with minimal environmental impacts.

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Lung cancer, cardiopulmonary mortality, and long-term exposure to fine particulate air pollution.

C. Arden Pope III (2002)

Associations have been found between day-to-day particulate air pollution and increased risk of various adverse health outcomes, including cardiopulmonary mortality. However, studies of health effects of long-term particulate air pollution have been less conclusive. To assess the relationship between long-term exposure to fine particulate air pollution and all-cause, lung cancer, and cardiopulmonary mortality. Vital status and cause of death data were collected by the American Cancer Society as part of the Cancer Prevention II study, an ongoing prospective mortality study, which enrolled approximately 1.2 million adults in 1982. Participants completed a questionnaire detailing individual risk factor data (age, sex, race, weight, height, smoking history, education, marital status, diet, alcohol consumption, and occupational exposures). The risk factor data for approximately 500 000 adults were linked with air pollution data for metropolitan areas throughout the United States and combined with vital status and cause of death data through December 31, 1998. All-cause, lung cancer, and cardiopulmonary mortality. Fine particulate and sulfur oxide--related pollution were associated with all-cause, lung cancer, and cardiopulmonary mortality. Each 10-microg/m(3) elevation in fine particulate air pollution was associated with approximately a 4%, 6%, and 8% increased risk of all-cause, cardiopulmonary, and lung cancer mortality, respectively. Measures of coarse particle fraction and total suspended particles were not consistently associated with mortality. Long-term exposure to combustion-related fine particulate air pollution is an important environmental risk factor for cardiopulmonary and lung cancer mortality.

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Is Open Access

RNA virus interference via CRISPR/Cas13a system in plants

Rashid Aman, Zahir Ali, Haroon Butt … (2018)

Background CRISPR/Cas systems confer immunity against invading nucleic acids and phages in bacteria and archaea. CRISPR/Cas13a (known previously as C2c2) is a class 2 type VI-A ribonuclease capable of targeting and cleaving single-stranded RNA (ssRNA) molecules of the phage genome. Here, we employ CRISPR/Cas13a to engineer interference with an RNA virus, Turnip Mosaic Virus (TuMV), in plants. Results CRISPR/Cas13a produces interference against green fluorescent protein (GFP)-expressing TuMV in transient assays and stable overexpression lines of Nicotiana benthamiana. CRISPR RNA (crRNAs) targeting the HC-Pro and GFP sequences exhibit better interference than those targeting other regions such as coat protein (CP) sequence. Cas13a can also process pre-crRNAs into functional crRNAs. Conclusions Our data indicate that CRISPR/Cas13a can be used for engineering interference against RNA viruses, providing a potential novel mechanism for RNA-guided immunity against RNA viruses and for other RNA manipulations in plants. Electronic supplementary material The online version of this article (doi:10.1186/s13059-017-1381-1) contains supplementary material, which is available to authorized users.

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Author and article information

Contributors

Marin Elisabeth Skidmore:

ORCID: https://orcid.org/0000-0002-9061-932X

Journal

Journal ID (nlm-ta): Proc Natl Acad Sci U S A

Journal ID (iso-abbrev): Proc Natl Acad Sci U S A

Journal ID (publisher-id): PNAS

Title: Proceedings of the National Academy of Sciences of the United States of America

Publisher: National Academy of Sciences

ISSN (Print): 0027-8424

ISSN (Electronic): 1091-6490

Publication date (Electronic, pub): 30 October 2023

Publication date (Print, pub): 7 November 2023

Publication date PMC-release: 30 October 2023

Volume: 120

Issue: 45

Electronic Location Identifier: e2306003120

Affiliations

[1] ^aDepartment of Agricultural and Consumer Economics , University of Illinois at Urbana-Champaign , Urbana, IL 61801

[2] ^bScrivner Institute of Public Policy, Josef Korbel School of International Studies , University of Denver , Denver, CO 80208

[3] ^cNelson Institute for Environmental Studies and Center for Sustainability and the Global Environment , University of Wisconsin-Madison , Madison, WI 53726

Author notes

¹To whom correspondence may be addressed. Email: marins@ 123456illinois.edu .

Edited by Prabhu Pingali, Cornell University, Ithaca, NY; received April 13, 2023; accepted August 31, 2023

Author information

Marin Elisabeth Skidmore https://orcid.org/0000-0002-9061-932X

Kaitlyn M. Sims https://orcid.org/0000-0003-2168-3448

Article

Publisher ID: 202306003

DOI: 10.1073/pnas.2306003120

PMC ID: 10636353

PubMed ID: 37903255

SO-VID: b1d06d5d-1b2f-4e49-a9ba-d4f3466770cb

License:

This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND).

History

Date received : 13 April 2023

Date accepted : 31 August 2023

Page count

Pages: 8, Words: 5733

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