Modeling the current and future distribution of Brucellosis under climate change scenarios in Qinghai Lake basin, China

Arotolu, Temitope Emmanuel; Wang, Haoning; Lv, Jianing; Shi, Kun; Huang, Liya; Wang, Xiaolong

doi:10.2478/acve-2023-0025

Acta Veterinaria

2023

DOI: 10.2478/acve-2023-0025

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Modeling the current and future distribution of Brucellosis under climate change scenarios in Qinghai Lake basin, China

Temitope Emmanuel Arotolu,

Haoning Wang,

Jianing Lv

et al.

Abstract: Bruce llosis is a bacterial disease caused by various Brucella species, which infect primarily cattle, swine, goats, sheep, and dogs. The disease is typically transmitted to humans through direct contact with diseased animals, consumption of contaminated animal products, or inhalation of airborne pollutants. The majority of cases are caused by consuming unpasteurized goat or sheep milk or cheese. Based on observed Brucellosis occurrence data and ecogeographic variables, a MaxEnt algorithm was used to model the… Show more

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Cited by 5 publications

References 71 publications

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Modeling current and future pomegranate distribution under climate change scenarios in the Fes-Meknes region, Morocco

El Fallah,

Adiba,

Charafi

et al. 2024

Euro-Mediterr J Environ Integr

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Modeling current and future pomegranate distribution under climate change scenarios in the Fes-Meknes region, Morocco

El Fallah,

Adiba,

Charafi

et al. 2024

Euro-Mediterr J Environ Integr

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Predicting of the spatio-temporal distribution of the Barbary partridge (Alectoris barbara) in Morocco under various bioclimatic scenarios

fallah,

Ouhakki,

kharrim

et al. 2025

Journal for Nature Conservation

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Modeling of the spatial distribution of species of interest in agriculture for their conservation: case of Punica granatum L.

El fallah,

Charafi,

El kharrim

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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Modeling the spatial distribution of species is an important step in biodiversity conservation. The models used can be helpful in predicting the impacts of climate change on the geographical distribution of species and in identifying areas where they are most likely to occur. The purpose of this work was to model the spatial distribution of the pomegranate species (Punica granatum L.) in Morocco according to the principle of maximum entropy (Maxent). This modelling method is widely used in ecology and biogeography because of its ability to work with datasets, and to produce accurate predictions of species distribution. Based on agro-ecological data such as topographical factors and climatic variables and focusing on regions where pomegranate cultivation is significant, these data can be collected at different spatial and temporal scales. They are typically integrated into Geographic Information Systems (GIS) for utilization within the simulation model. The resulting model depicts the potential spatial distribution of pomegranate cultivation throughout Morocco. The model obtained agrees perfectly with the actual distribution of the species in different regions of the country, especially since it is known for its hardiness and its adaptation to variable environmental conditions. Thus, the modeling showed that other geographical areas present favorable conditions for the development of pomegranate cropping. The determination of spatial distribution constitutes a first step to predict possible evolution of the pomegranate cropping according to climate change. The importance of this process for biodiversity conservation lies in several aspects, such as the identification of areas at risk, conservation planning, and the assessment of impacts on ecosystems.

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Modeling the current and future distribution of Brucellosis under climate change scenarios in Qinghai Lake basin, China

Cited by 5 publications

References 71 publications

Modeling current and future pomegranate distribution under climate change scenarios in the Fes-Meknes region, Morocco

Modeling current and future pomegranate distribution under climate change scenarios in the Fes-Meknes region, Morocco

Predicting of the spatio-temporal distribution of the Barbary partridge (Alectoris barbara) in Morocco under various bioclimatic scenarios

Modeling of the spatial distribution of species of interest in agriculture for their conservation: case of Punica granatum L.

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