Moran’s I and Geary’s C: investigation of the effects of spatial weight matrices for assessing the distribution of infectious diseases

Sarah Isnan; Ahmad Fikri bin Abdullah; Abdul Rashid Shariff; Iskandar Ishak; Sharifah Norkhadijah Syed Ismail; Maheshwara Rao Appanan; Jihong Zhang; Guohua Yin; Qiuhua Zhang; Juan Fang; Duo Jiang; Chao Yang; Na Sun; Alireza Mohammadi; Bardia Mashhoodi; Ali Shamsoddini; Elahe Pishgar; Robert Bergquist; Wentao Yang; Fengjie Wang; Yihan You; Zhixiong Fang; Xing Wang; Xiaoming Mei; Sang Min Lee; Dong Woo Huh; Young Gyu Kwon; Peter Nezval; Takeshi Shirabe; Jonas Schoo; Frank Schüssler; Mai Liu; Yin Zhang; Enríque Ibarra-Zapata; Darío Gaytán-Hernández; Yolanda Terán-Figueroa; Verónica Gallegos-García; Carmen del Pilar Suárez-Rodríguez; Sergio Zarazúa Guzmán; Omar Parra Rodríguez; Worrayot Darasawang; Wongsa Laohasiriwong; Kittipong Sornlorm; Warangkana Sungsitthisawad; Roshan Kumar Mahato; Mintesnot Tenkir Teni; Travis Loux; Ness Sandoval; Anne Sebert Kuhlmann; Iuria Betco; Ana Isabel Ribeiro; David S. Vale; Luis Encalada-Abarca; Cláudia M. Viana; Jorge Rocha; Adel Al-Huraibi; Sherif Amer; Justine Blanford; Néstor DelaPaz-Ruíz; Ellen-Wien Augustijn; Mahdi Farnaghi; Sheheen A. Abdulkareem; Raul Zurita Milla; Ulrik B. Pedersen; Dimitrios-Alexios Karagiannis-Voules; Nicholas Midzi; Tkafira Mduluza; Samson Mukaratirwa; Rasmus Fensholt; Birgitte J. Vennervald; Thomas K. Kristensen; Penelope Vounatsou; Anna-Sofie Stensgaard

doi:10.4081/gh.2025.1277

Authors

Department of Disease Biology, Faculty of Health Sciences and Medical Sciences, University of Copenhagen, Frederiksberg, Denmark.

Dimitrios-Alexios Karagiannis-Voules

Department of Public Health and Epidemiology, Swiss Tropical and Public Health Institute, University of Basel, Basel, Switzerland.

Nicholas Midzi

Department of Biochemistry, University of Zimbabwe, Harare, Zimbabwe.

Tkafira Mduluza

Department of Medical Microbiology, College of Health Sciences, University of Zimbabwe, Harare, Zimbabwe.

Samson Mukaratirwa

School of Life Sciences, University of KwaZulu-Natal, Westville, South Africa.

Rasmus Fensholt

Department of Geosciences and Natural Resource Management, University of Copenhagen, Copenhagen, Denmark.

Birgitte J. Vennervald

Department of Disease Biology, Faculty of Health Sciences and Medical Sciences, University of Copenhagen, Frederiksberg, Denmark.

Thomas K. Kristensen

Department of Disease Biology, Faculty of Health Sciences and Medical Sciences, University of Copenhagen, Frederiksberg, Denmark; School of Life Sciences, University of KwaZulu-Natal, Westville, South Africa.

Penelope Vounatsou

Department of Public Health and Epidemiology, Swiss Tropical and Public Health Institute, University of Basel, Basel, Switzerland.

Anna-Sofie Stensgaard

Center for Macroecology, Evolution and Climate, Natural History Museum of Denmark, University of Copenhagen, Copenhagen, Denmark.

Temperature, precipitation and humidity are known to be important factors for the development of schistosome parasites as well as their intermediate snail hosts. Climate therefore plays an important role in determining the geographical distribution of schistosomiasis and it is expected that climate change will alter distribution and transmission patterns. Reliable predictions of distribution changes and likely transmission scenarios are key to efficient schistosomiasis intervention-planning. However, it is often difficult to assess the direction and magnitude of the impact on schistosomiasis induced by climate change, as well as the temporal transferability and predictive accuracy of the models, as prevalence data is often only available from one point in time. We evaluated potential climate-induced changes on the geographical distribution of schistosomiasis in Zimbabwe using prevalence data from two points in time, 29 years apart; to our knowledge, this is the first study investigating this over such a long time period. We applied historical weather data and matched prevalence data of two schistosome species (Schistosoma haematobium and S. mansoni). For each time period studied, a Bayesian geostatistical model was fitted to a range of climatic, environmental and other potential risk factors to identify significant predictors that could help us to obtain spatially explicit schistosomiasis risk estimates for Zimbabwe. The observed general downward trend in schistosomiasis prevalence for Zimbabwe from 1981 and the period preceding a survey and control campaign in 2010 parallels a shift towards a drier and warmer climate. However, a statistically significant relationship between climate change and the change in prevalence could not be established.

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Ulrik B. Pedersen, Department of Disease Biology, Faculty of Health Sciences and Medical Sciences, University of Copenhagen, Frederiksberg

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Comparison of the spatial patterns of schistosomiasis in Zimbabwe at two points in time, spaced twenty-nine years apart: is climate variability of importance?. (2017). Geospatial Health, 12(1). https://doi.org/10.4081/gh.2017.505

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Comparison of the spatial patterns of schistosomiasis in Zimbabwe at two points in time, spaced twenty-nine years apart: is climate variability of importance?

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