taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
0B4D879BA1766248FCE5F9D5FF01490F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12628834/files/figure.png	https://doi.org/10.5281/zenodo.12628834	Figure 4. Prevalence of co-infection Spiroplasma-Trypanosoma in wild G. tachinoides.	Figure 4. Prevalence of co-infection Spiroplasma-Trypanosoma in wild G. tachinoides.	2023-12-19	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm		Zenodo	biologists	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm			
0B4D879BA176624AFFB9FB44FB404FC9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12628830/files/figure.png	https://doi.org/10.5281/zenodo.12628830	Figure 2. Prevalence of Spiroplasma according to location. Bars marked with the same lower-case letter do not differ significantly at the 0.05 level.	Figure 2. Prevalence of Spiroplasma according to location. Bars marked with the same lower-case letter do not differ significantly at the 0.05 level.	2023-12-19	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm		Zenodo	biologists	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm			
0B4D879BA176624AFFB9FB44FB404FC9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12628832/files/figure.png	https://doi.org/10.5281/zenodo.12628832	Figure 3. Prevalence of Spiroplasma and Trypanosoma (single and multiple) infections per country, location, and sex. Prevalence data were square root transformed and averaged based on location-sex and the matrix display was conducted in PRIMER version 7 + software. Tree on the left of the matrix is the similarity dendrogram based on the similarity index of the square root of the prevalence values. The color index is the square root of the prevalence values ranged 0–9 which is the square root of 0–81% prevalence.	Figure 3. Prevalence of Spiroplasma and Trypanosoma (single and multiple) infections per country, location, and sex. Prevalence data were square root transformed and averaged based on location-sex and the matrix display was conducted in PRIMER version 7 + software. Tree on the left of the matrix is the similarity dendrogram based on the similarity index of the square root of the prevalence values. The color index is the square root of the prevalence values ranged 0–9 which is the square root of 0–81% prevalence.	2023-12-19	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm		Zenodo	biologists	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm			
0B4D879BA176624AFCE5FE6CFB364B98.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12628832/files/figure.png	https://doi.org/10.5281/zenodo.12628832	Figure 3. Prevalence of Spiroplasma and Trypanosoma (single and multiple) infections per country, location, and sex. Prevalence data were square root transformed and averaged based on location-sex and the matrix display was conducted in PRIMER version 7 + software. Tree on the left of the matrix is the similarity dendrogram based on the similarity index of the square root of the prevalence values. The color index is the square root of the prevalence values ranged 0–9 which is the square root of 0–81% prevalence.	Figure 3. Prevalence of Spiroplasma and Trypanosoma (single and multiple) infections per country, location, and sex. Prevalence data were square root transformed and averaged based on location-sex and the matrix display was conducted in PRIMER version 7 + software. Tree on the left of the matrix is the similarity dendrogram based on the similarity index of the square root of the prevalence values. The color index is the square root of the prevalence values ranged 0–9 which is the square root of 0–81% prevalence.	2023-12-19	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm		Zenodo	biologists	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm			
0B4D879BA1746249FFB9F8A8FEAB4886.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12628836/files/figure.png	https://doi.org/10.5281/zenodo.12628836	Figure 5. Normalized density of Spiroplasma (A), Trypanosoma (B), and Wigglesworthia (C) according to Spiroplasma-Trypanosoma co-infection in wild G. tachinoides. Bars marked with the same lower-case letter do not differ significantly at the 0.05 level.	Figure 5. Normalized density of Spiroplasma (A), Trypanosoma (B), and Wigglesworthia (C) according to Spiroplasma-Trypanosoma co-infection in wild G. tachinoides. Bars marked with the same lower-case letter do not differ significantly at the 0.05 level.	2023-12-19	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm		Zenodo	biologists	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm			
0B4D879BA1756249FFB9F926FCA84BFF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/12628838/files/figure.png	https://doi.org/10.5281/zenodo.12628838	Figure 6. Neighbor-Joining consensus tree (A) and Haplotype network analysis (B) of the Spiroplasma in G. tachinoides in Burkina Faso and Ghana. (A) Neighbor-Joining consensus tree was built after alignment of all the concatenated sequences. The method used to calculate the distance was Tamura-Nei. (B) Haplotype network generated based on the ML tree which was generated based on Spiroplasma sequences. The black lineaments on the lines represent mutation events between the haplotypes. The different colors represent the locations. The reference sequence of Spiroplasma in G. fuscipes fuscipes species (KX159391) was used as the outgroup for construction of both phylogenetic tree and haplotype network.	Figure 6. Neighbor-Joining consensus tree (A) and Haplotype network analysis (B) of the Spiroplasma in G. tachinoides in Burkina Faso and Ghana. (A) Neighbor-Joining consensus tree was built after alignment of all the concatenated sequences. The method used to calculate the distance was Tamura-Nei. (B) Haplotype network generated based on the ML tree which was generated based on Spiroplasma sequences. The black lineaments on the lines represent mutation events between the haplotypes. The different colors represent the locations. The reference sequence of Spiroplasma in G. fuscipes fuscipes species (KX159391) was used as the outgroup for construction of both phylogenetic tree and haplotype network.	2023-12-19	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm		Zenodo	biologists	Moyaba, Percy;Ouedraogo, Gisele Ms;Pagabeleguem, Soumaïla;Njokou, Flobert;Freitas, Ngambia;Vreysen, Marc Jb;Abd-Alla, Adly Mm			
