Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden

Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden

Abstract Urban community gardens have increased in prevalence as a means to generate fresh fruits and vegetables, including in areas lacking access to healthy food options. However, urban soils may have high levels of toxic heavy metals, including lead and cadmium and the metalloid arsenic, which ca...

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Main Authors: Andrew M. Cooper, Didra Felix, Fatima Alcantara, Ilya Zaslavsky, Amy Work, Paul L. Watson, Keith Pezzoli, Qi Yu, Dan Zhu, Alexander J. Scavo, Yasman Zarabi, Julian I. Schroeder
Format: Article
Language:English
Published: Wiley 2020-01-01
Series:Plant Direct
Subjects:
arsenic
cadmium
heavy metal
ion transport
ionomics
Pb lead
Online Access:https://doi.org/10.1002/pld3.198
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spelling doaj-da1e70bbe177464fad6acd34563d4a2e2021-05-02T06:52:58ZengWileyPlant Direct2475-44552020-01-0141n/an/a10.1002/pld3.198Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community gardenAndrew M. Cooper0Didra Felix1Fatima Alcantara2Ilya Zaslavsky3Amy Work4Paul L. Watson5Keith Pezzoli6Qi Yu7Dan Zhu8Alexander J. Scavo9Yasman Zarabi10Julian I. Schroeder11Division of Biological Sciences, Cell and Developmental Biology Section University of California, San Diego La Jolla CA USADivision of Biological Sciences, Cell and Developmental Biology Section University of California, San Diego La Jolla CA USADivision of Biological Sciences, Cell and Developmental Biology Section University of California, San Diego La Jolla CA USASpatial Information Systems Laboratory San Diego Supercomputer Center La Jolla CA USAUC San Diego Library San Diego Supercomputer Center La Jolla CA USAGlobal Action Research Center San Diego CA USADepartment of Urban Studies and Planning Bioregional Center for Sustainability Science, Planning and Design University of California, San Diego La Jolla CA USADivision of Biological Sciences, Cell and Developmental Biology Section University of California, San Diego La Jolla CA USADivision of Biological Sciences, Cell and Developmental Biology Section University of California, San Diego La Jolla CA USADivision of Biological Sciences, Cell and Developmental Biology Section University of California, San Diego La Jolla CA USADivision of Biological Sciences, Cell and Developmental Biology Section University of California, San Diego La Jolla CA USADivision of Biological Sciences, Cell and Developmental Biology Section University of California, San Diego La Jolla CA USAAbstract Urban community gardens have increased in prevalence as a means to generate fresh fruits and vegetables, including in areas lacking access to healthy food options. However, urban soils may have high levels of toxic heavy metals, including lead and cadmium and the metalloid arsenic, which can lead to severe health risks. In this study, fruit and vegetable samples grown at an urban community garden in southeastern San Diego, the Ocean View Growing Grounds, were sampled repeatedly over a four‐year time period in order to measure potential contamination of toxic heavy metals and metalloids and to develop solutions for this problem. Metal nutrient, heavy metal, and metalloid concentrations were monitored in the leaf and fruit tissues of fruit trees over the sampling period. Several of the fruit trees showed uptake of lead in the leaf samples, with Black Mission fig measuring 0.843–1.531 mg/kg dry weight and Mexican Lime measuring 1.103–1.522 mg/kg dry weight over the sampling period. Vegetables that were grown directly in the ground at this community garden and surrounding areas showed arsenic, 0.80 + 0.073 mg/kg dry weight for Swiss chard, and lead, 0.84 ± 0.404 mg/kg dry weight for strawberries, in their edible tissues. The subsequent introduction of raised beds with uncontaminated soil is described, which eliminated any detectable heavy metal or metalloid contamination in these crops during the monitoring period. Recommendations for facilitating the monitoring of edible tissues and for reducing risk are discussed, including introduction of raised beds and collaborations with local universities and research groups.https://doi.org/10.1002/pld3.198arseniccadmiumheavy metalion transportionomicsPb lead
collection DOAJ
language English
format Article
sources DOAJ
author Andrew M. Cooper
Didra Felix
Fatima Alcantara
Ilya Zaslavsky
Amy Work
Paul L. Watson
Keith Pezzoli
Qi Yu
Dan Zhu
Alexander J. Scavo
Yasman Zarabi
Julian I. Schroeder
spellingShingle Andrew M. Cooper
Didra Felix
Fatima Alcantara
Ilya Zaslavsky
Amy Work
Paul L. Watson
Keith Pezzoli
Qi Yu
Dan Zhu
Alexander J. Scavo
Yasman Zarabi
Julian I. Schroeder
Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden
Plant Direct
arsenic
cadmium
heavy metal
ion transport
ionomics
Pb lead
author_facet Andrew M. Cooper
Didra Felix
Fatima Alcantara
Ilya Zaslavsky
Amy Work
Paul L. Watson
Keith Pezzoli
Qi Yu
Dan Zhu
Alexander J. Scavo
Yasman Zarabi
Julian I. Schroeder
author_sort Andrew M. Cooper
title Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden
title_short Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden
title_full Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden
title_fullStr Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden
title_full_unstemmed Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden
title_sort monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: a case study of an urban community garden
publisher Wiley
series Plant Direct
issn 2475-4455
publishDate 2020-01-01
description Abstract Urban community gardens have increased in prevalence as a means to generate fresh fruits and vegetables, including in areas lacking access to healthy food options. However, urban soils may have high levels of toxic heavy metals, including lead and cadmium and the metalloid arsenic, which can lead to severe health risks. In this study, fruit and vegetable samples grown at an urban community garden in southeastern San Diego, the Ocean View Growing Grounds, were sampled repeatedly over a four‐year time period in order to measure potential contamination of toxic heavy metals and metalloids and to develop solutions for this problem. Metal nutrient, heavy metal, and metalloid concentrations were monitored in the leaf and fruit tissues of fruit trees over the sampling period. Several of the fruit trees showed uptake of lead in the leaf samples, with Black Mission fig measuring 0.843–1.531 mg/kg dry weight and Mexican Lime measuring 1.103–1.522 mg/kg dry weight over the sampling period. Vegetables that were grown directly in the ground at this community garden and surrounding areas showed arsenic, 0.80 + 0.073 mg/kg dry weight for Swiss chard, and lead, 0.84 ± 0.404 mg/kg dry weight for strawberries, in their edible tissues. The subsequent introduction of raised beds with uncontaminated soil is described, which eliminated any detectable heavy metal or metalloid contamination in these crops during the monitoring period. Recommendations for facilitating the monitoring of edible tissues and for reducing risk are discussed, including introduction of raised beds and collaborations with local universities and research groups.
topic arsenic
cadmium
heavy metal
ion transport
ionomics
Pb lead
url https://doi.org/10.1002/pld3.198
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