Prediction of future risk of invasion by Limnoperna fortunei (Dunker, 1857) (Mollusca, Bivalvia, Mytilidae) in Brazil with cellular automata

[Display omitted] •It is proposed a cellular automaton to predict the invasion of Limnoperna fortunei.•The model can be used to predict the risk of current and future invasions.•The algorithm was created considering the biology of the species. In South America, the presence of the non-native mollusc...

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Published in	Ecological indicators Vol. 92; pp. 30 - 39
Main Authors	Barbosa, Newton P.U., Ferreira, Jacqueline A., Nascimento, César A.R., Silva, Fabiano A., Carvalho, Vinícius A., Xavier, Eric R.S., Ramon, Lucas, Almeida, Arthur C., Carvalho, Marcela D., Cardoso, Antônio V.
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.09.2018
Subjects	Aichi biodiversity targets algorithms altitude Brazil climatic factors control methods Dispersion vectors environmental impact environmental indicators Golden mussel human population invasive species Jump dispersion Limnoperna fortunei molluscs population density prediction risk risk assessment rivers Brazil Dispersion vectors Jump dispersion Golden mussel Aichi biodiversity targets
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Abstract	[Display omitted] •It is proposed a cellular automaton to predict the invasion of Limnoperna fortunei.•The model can be used to predict the risk of current and future invasions.•The algorithm was created considering the biology of the species. In South America, the presence of the non-native mollusc Limnoperna fortunei (Dunker, 1857) (Mollusca, Bivalvia, Mytilidae) in rivers and reservoirs may result in several impacts on the environment and economic activities. In a continental scale, the factors that most influence the dispersion of the species are anthropogenic vectors such as the movement of boats and people. Due to this, distribution models based solely on climatic variables often fail to predict the areas most subject to invasion, both spatially and temporally. An alternative to overcome this problem is the evaluation assuming the phenomenon as a complex system. In this paper, we have used a cellular automata model to predict the spread of the golden mussel in the Brazilian territory, on a temporal and spatial scale. We assume three parameters of interest: a) altitude b) characteristics of the river, and c) human population density. Transition rules were defined based on various considerations discussed in the article. The algorithm estimated satisfactorily the risk of invasion by L. fortunei to date (year of 2016), and the simulations for the years 2030 and 2050 predicted a high risk of invasion in north and northeastern Brazil. The increased risk of invasion predicted by the model for the next decades indicates that prevention and control measures should be applied immediately and this is of the utmost importance for the country to be able to comply with the #9 Aichi target.
AbstractList	In South America, the presence of the non-native mollusc Limnoperna fortunei (Dunker, 1857) (Mollusca, Bivalvia, Mytilidae) in rivers and reservoirs may result in several impacts on the environment and economic activities. In a continental scale, the factors that most influence the dispersion of the species are anthropogenic vectors such as the movement of boats and people. Due to this, distribution models based solely on climatic variables often fail to predict the areas most subject to invasion, both spatially and temporally. An alternative to overcome this problem is the evaluation assuming the phenomenon as a complex system. In this paper, we have used a cellular automata model to predict the spread of the golden mussel in the Brazilian territory, on a temporal and spatial scale. We assume three parameters of interest: a) altitude b) characteristics of the river, and c) human population density. Transition rules were defined based on various considerations discussed in the article. The algorithm estimated satisfactorily the risk of invasion by L. fortunei to date (year of 2016), and the simulations for the years 2030 and 2050 predicted a high risk of invasion in north and northeastern Brazil. The increased risk of invasion predicted by the model for the next decades indicates that prevention and control measures should be applied immediately and this is of the utmost importance for the country to be able to comply with the #9 Aichi target. [Display omitted] •It is proposed a cellular automaton to predict the invasion of Limnoperna fortunei.•The model can be used to predict the risk of current and future invasions.•The algorithm was created considering the biology of the species. In South America, the presence of the non-native mollusc Limnoperna fortunei (Dunker, 1857) (Mollusca, Bivalvia, Mytilidae) in rivers and reservoirs may result in several impacts on the environment and economic activities. In a continental scale, the factors that most influence the dispersion of the species are anthropogenic vectors such as the movement of boats and people. Due to this, distribution models based solely on climatic variables often fail to predict the areas most subject to invasion, both spatially and temporally. An alternative to overcome this problem is the evaluation assuming the phenomenon as a complex system. In this paper, we have used a cellular automata model to predict the spread of the golden mussel in the Brazilian territory, on a temporal and spatial scale. We assume three parameters of interest: a) altitude b) characteristics of the river, and c) human population density. Transition rules were defined based on various considerations discussed in the article. The algorithm estimated satisfactorily the risk of invasion by L. fortunei to date (year of 2016), and the simulations for the years 2030 and 2050 predicted a high risk of invasion in north and northeastern Brazil. The increased risk of invasion predicted by the model for the next decades indicates that prevention and control measures should be applied immediately and this is of the utmost importance for the country to be able to comply with the #9 Aichi target.
Author	Silva, Fabiano A. Ferreira, Jacqueline A. Cardoso, Antônio V. Carvalho, Marcela D. Barbosa, Newton P.U. Almeida, Arthur C. Carvalho, Vinícius A. Xavier, Eric R.S. Nascimento, César A.R. Ramon, Lucas
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Snippet	[Display omitted] •It is proposed a cellular automaton to predict the invasion of Limnoperna fortunei.•The model can be used to predict the risk of current and... In South America, the presence of the non-native mollusc Limnoperna fortunei (Dunker, 1857) (Mollusca, Bivalvia, Mytilidae) in rivers and reservoirs may result...
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SubjectTerms	Aichi biodiversity targets algorithms altitude Brazil climatic factors control methods Dispersion vectors environmental impact environmental indicators Golden mussel human population invasive species Jump dispersion Limnoperna fortunei molluscs population density prediction risk risk assessment rivers
Title	Prediction of future risk of invasion by Limnoperna fortunei (Dunker, 1857) (Mollusca, Bivalvia, Mytilidae) in Brazil with cellular automata
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