Springer Nature
Browse
13071_2019_3745_MOESM1_ESM.docx (99.32 kB)

MOESM1 of Freshwater snails of biomedical importance in the Niger River Valley: evidence of temporal and spatial patterns in abundance, distribution and infection with Schistosoma spp.

Download (99.32 kB)
journal contribution
posted on 2019-10-23, 08:25 authored by Muriel Rabone, Joris Wiethase, Fiona Allan, Anouk Gouvras, Tom Pennance, Amina Hamidou, Bonnie Webster, Rabiou Labbo, Aidan Emery, Amadou Garba, David Rollinson
Additional file 1: Table S1. Snail survey sites (coordinates in decimal, WGS84). Figure S1. Predicted counts by site type, B. truncatus. Figure S2. Estimated slope of Bulinus spp. with temperature by site type. Here a 1 degree increase in temperature equals decrease in abundance in rivulet and river, rice paddies, ponds and irrigation canals no real change although in latter—v slight increase in abundance with temp, spillway and stream (I site)—increase in abundance with temperature. Figure S3. Estimated slope of Bulinus spp. with water speed. Table S2. B. truncatus glmmTMB negative binomial model summary output. Table S3. B. forskalii glmmTMB negative binomial model summary output. Table S4. Radix natalensis glmmTMB negative binomial model summary output. Table S5. Biomphalaria pfeifferi glmmTMB negative binomial model summary output. Table S6. Bulinus spp glmmTMB negative binomial model summary output. Table S7. Water chemistry and physical variable data, including USDA (WMO) weather station data, A: averaged by month, and B: by site type (final year of ground collected data missing due to equipment failure). Table S8. Shedding/infected B. truncatus glmmTMB negative binomial model summary output.

Funding

Bill and Melinda Gates Foundation for the Schistosomiasis Consortium for Operational Research and Evaluation (SCORE)

History