Climate change threatens pollination services in tomato crops in Brazil

[Display omitted] •Climate change will affect the geographic distribution of bee species in Brazil.•Five native bee species will undergo a reduction in suitable areas.•The high agreement between tomato crops and bee distribution will be reduced in 2100.•The species Bombus morio had the highest reduc...

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Bibliographic Details
Published inAgriculture, ecosystems & environment Vol. 239; pp. 257 - 264
Main Authors Elias, Marcos A.S., Borges, Fabio J.A., Bergamini, Leonardo L., Franceschinelli, Edivani V., Sujii, Edison R.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 15.02.2017
Elsevier BV
Subjects
Bombus morio
Centris tarsata
Climate change
Crops
Ecosystem services
Emission analysis
Environmental changes
Environmental impact
Geographical distribution
Modeling
Plant reproduction
Pollination
Pollinator
Reduction
Solanum lycopersicum
Species
Species conservation
Studies
Tomatoes
Brazil
Species conservation
Pollinator
Ecosystem services
Modeling
Solanum lycopersicum
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Summary:[Display omitted] •Climate change will affect the geographic distribution of bee species in Brazil.•Five native bee species will undergo a reduction in suitable areas.•The high agreement between tomato crops and bee distribution will be reduced in 2100.•The species Bombus morio had the highest reduction in range in south Brazil.•Pollination service in tomato could be impaired in the future. Understanding how climate change may affect species distribution helps predict how ecosystem services, such as pollination, could be impaired in the future. We examine the potential consequences of climate change on the geographical distribution of five native bee species and estimate the possible effects of bee distribution shifts on tomato crops in Brazil. Ensemble forecasting was implemented through five algorithms in two carbon emission scenarios to predict range shifts for five tomato-visiting bee species for the year 2100. We then calculated the total tomato crop area in the cells with at least 50% bee suitability, for each bee species, in each scenario. Results showed that all species will undergo a reduction in suitable areas in both scenarios. Bombus morio had the greatest area reduction in 2100 under the optimistic and pessimistic scenarios: near 38% and 71%, respectively. Centris tarsata had the smaller area reduction under the same scenarios: 8.5% and 19.5% respectively. The high agreement between tomato crops and bee distribution observed in the present will also be reduced in both scenarios for all species, especially in the pessimistic scenario. B. morio had the highest reduction in range due to habitat suitability and will be restricted to some parts of southeastern and southern Brazil. Over 60% of the tomato crop area presently within the distribution of B. morio will become climatically unsuitable in the pessimistic emission scenario. This study indicates that the predicted climate change may negatively impact several species associated with tomato crops in Brazil by the year 2100. This is troubling, as it could result in tomato production losses, which would bring economic and environmental losses to the tomato-producing regions with implications for pollinator conservation.
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2017.01.026