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3. 2021 Taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales

Author

Kuhn, J, Adkins, S, Agwanda, B, Al Kubrusli, R, Alkhovsky, S, Amarasinghe, G, Avsic-Zupanc, T, Ayllon, M, Bahl, J, Balkema-Buschmann, A, Ballinger, M, Basler, C, Bavari, S, Beer, M, Bejerman, N, Bennett, A, Bente, D, Bergeron, E, Bird, B, Blair, C, Blasdell, K, Blystad, D, Bojko, J, Borth, W, Bradfute, S, Breyta, R, Briese, T, Brown, P, Brown, J, Buchholz, U, Buchmeier, M, Bukreyev, A, Burt, F, Buttner, C, Calisher, C, Cao, M, Casas, I, Chandran, K, Charrel, R, Cheng, Q, Chiaki, Y, Chiapello, M, Choi, I, Ciuffo, M, Clegg, J, Crozier, I, Dal Bo, E, de la Torre, J, de Lamballerie, X, de Swart, R, Debat, H, Dheilly, N, Di Cicco, E, Di Paola, N, Di Serio, F, Dietzgen, R, Digiaro, M, Dolnik, O, Drebot, M, Drexler, J, Dundon, W, Duprex, W, Durrwald, R, Dye, J, Easton, A, Ebihara, H, Elbeaino, T, Ergunay, K, Ferguson, H, Fooks, A, Forgia, M, Formenty, P, Franova, J, Freitas-Astua, J, Fu, J, Furl, S, Gago-Zachert, S, Gao, G, Garcia, M, Garcia-Sastre, A, Garrison, A, Gaskin, T, Gonzalez, J, Griffiths, A, Goldberg, T, Groschup, M, Gunther, S, Hall, R, Hammond, J, Han, T, Hepojoki, J, Hewson, R, Hong, J, Hong, N, Hongo, S, Horie, M, Hu, J, Hu, T, Hughes, H, Huttner, F, Hyndman, T, Ilyas, M, Jalkanen, R, Jiang, D, Jonson, G, Junglen, S, Kadono, F, Kaukinen, K, Kawate, M, Klempa, B, Klingstrom, J, Kobinger, G, Koloniuk, I, Kondo, H, Koonin, E, Krupovic, M, Kubota, K, Kurath, G, Laenen, L, Lambert, A, Langevin, S, Lee, B, Lefkowitz, E, Leroy, E, Li, S, Li, L, Li, J, Liu, H, Lukashevich, I, Maes, P, de Souza, W, Marklewitz, M, Marshall, S, Marzano, S, Massart, S, Mccauley, J, Melzer, M, Mielke-Ehret, N, Miller, K, Ming, T, Mirazimi, A, Mordecai, G, Muhlbach, H, Muhlberger, E, Naidu, R, Natsuaki, T, Navarro, J, Netesov, S, Neumann, G, Nowotny, N, Nunes, M, Olmedo-Velarde, A, Palacios, G, Pallas, V, Palyi, B, Papa, A, Paraskevopoulou, S, Park, A, Parrish, C, Patterson, D, Pauvolid-Correa, A, Paweska, J, Payne, S, Peracchio, C, Perez, D, Postler, T, Qi, L, Radoshitzky, S, Resende, R, Reyes, C, Rima, B, Luna, G, Romanowski, V, Rota, P, Rubbenstroth, D, Rubino, L, Runstadler, J, Sabanadzovic, S, Sall, A, Salvato, M, Sang, R, Sasaya, T, Schulze, A, Schwemmle, M, Shi, M, Shi, X, Shi, Z, Shimomoto, Y, Shirako, Y, Siddell, S, Simmonds, P, Sironi, M, Smagghe, G, Smither, S, Song, J, Spann, K, Spengler, J, Stenglein, M, Stone, D, Sugano, J, Suttle, C, Tabata, A, Takada, A, Takeuchi, S, Tchouassi, D, Teffer, A, Tesh, R, Thornburg, N, Tomitaka, Y, Tomonaga, K, Tordo, N, Torto, B, Towner, J, Tsuda, S, Tu, C, Turina, M, Tzanetakis, I, Uchida, J, Usugi, T, Vaira, A, Vallino, M, van den Hoogen, B, Varsani, A, Vasilakis, N, Verbeek, M, von Bargen, S, Wada, J, Wahl, V, Walker, P, Wang, L, Wang, G, Wang, Y, Waqas, M, Wei, T, Wen, S, Whitfield, A, Williams, J, Wolf, Y, Wu, J, Xu, L, Yanagisawa, H, Yang, C, Yang, Z, Zerbini, F, Zhai, L, Zhang, Y, Zhang, S, Zhang, J, Zhang, Z, Zhou, X, Kuhn JH, Adkins S, Agwanda BR, Al Kubrusli R, Alkhovsky SV, Amarasinghe GK, Avsic-Zupanc T, Ayllon MA, Bahl J, Balkema-Buschmann A, Ballinger MJ, Basler CF, Bavari S, Beer M, Bejerman N, Bennett AJ, Bente DA, Bergeron E, Bird BH, Blair CD, Blasdell KR, Blystad DR, Bojko J, Borth WB, Bradfute S, Breyta R, Briese T, Brown PA, Brown JK, Buchholz UJ, Buchmeier MJ, Bukreyev A, Burt F, Buttner C, Calisher CH, Cao MJ, Casas I, Chandran K, Charrel RN, Cheng Q, Chiaki Y, Chiapello M, Choi I, Ciuffo M, Clegg JCS, Crozier I, Dal Bo E, de la Torre JC, de Lamballerie X, de Swart RL, Debat H, Dheilly NM, Di Cicco E, Di Paola N, Di Serio F, Dietzgen RG, Digiaro M, Dolnik O, Drebot MA, Drexler JF, Dundon WG, Duprex WP, Durrwald R, Dye JM, Easton AJ, Ebihara H, Elbeaino T, Ergunay K, Ferguson HW, Fooks AR, Forgia M, Formenty PBH, Franova J, Freitas-Astua J, Fu JJ, Furl S, Gago-Zachert S, Gao GF, Garcia ML, Garcia-Sastre A, Garrison AR, Gaskin T, Gonzalez JPJ, Griffiths A, Goldberg TL, Groschup MH, Gunther S, Hall RA, Hammond J, Han T, Hepojoki J, Hewson R, Hong J, Hong N, Hongo S, Horie M, Hu JS, Hu T, Hughes HR, Huttner F, Hyndman TH, Ilyas M, Jalkanen R, Jiang DH, Jonson GB, Junglen S, Kadono F, Kaukinen KH, Kawate M, Klempa B, Klingstrom J, Kobinger G, Koloniuk I, Kondo H, Koonin EV, Krupovic M, Kubota K, Kurath G, Laenen L, Lambert AJ, Langevin SL, Lee B, Lefkowitz EJ, Leroy EM, Li SR, Li LH, Li JR, Liu HZ, Lukashevich IS, Maes P, de Souza WM, Marklewitz M, Marshall SH, Marzano SYL, Massart S, McCauley JW, Melzer M, Mielke-Ehret N, Miller KM, Ming TJ, Mirazimi A, Mordecai GJ, Muhlbach HP, Muhlberger E, Naidu R, Natsuaki T, Navarro JA, Netesov SV, Neumann G, Nowotny N, Nunes MRT, Olmedo-Velarde A, Palacios G, Pallas V, Palyi B, Papa A, Paraskevopoulou S, Park AC, Parrish CR, Patterson DA, Pauvolid-Correa A, Paweska JT, Payne S, Peracchio C, Perez DR, Postler TS, Qi LY, Radoshitzky SR, Resende RO, Reyes CA, Rima BK, Luna GR, Romanowski V, Rota P, Rubbenstroth D, Rubino L, Runstadler JA, Sabanadzovic S, Sall AA, Salvato MS, Sang RS, Sasaya T, Schulze AD, Schwemmle M, Shi M, Shi XH, Shi ZL, Shimomoto Y, Shirako Y, Siddell SG, Simmonds P, Sironi M, Smagghe G, Smither S, Song JW, Spann K, Spengler JR, Stenglein MD, Stone DM, Sugano J, Suttle CA, Tabata A, Takada A, Takeuchi S, Tchouassi DP, Teffer A, Tesh RB, Thornburg NJ, Tomitaka Y, Tomonaga K, Tordo N, Torto B, Towner JS, Tsuda S, Tu CC, Turina M, Tzanetakis IE, Uchida J, Usugi T, Vaira AM, Vallino M, van den Hoogen B, Varsani A, Vasilakis N, Verbeek M, von Bargen S, Wada J, Wahl V, Walker PJ, Wang LF, Wang GP, Wang YX, Wang YQ, Waqas M, Wei TY, Wen SH, Whitfield AE, Williams JV, Wolf YI, Wu JX, Xu L, Yanagisawa H, Yang CX, Yang ZK, Zerbini FM, Zhai L, Zhang YZ, Zhang S, Zhang JG, Zhang Z, Zhou XP, Kuhn, J, Adkins, S, Agwanda, B, Al Kubrusli, R, Alkhovsky, S, Amarasinghe, G, Avsic-Zupanc, T, Ayllon, M, Bahl, J, Balkema-Buschmann, A, Ballinger, M, Basler, C, Bavari, S, Beer, M, Bejerman, N, Bennett, A, Bente, D, Bergeron, E, Bird, B, Blair, C, Blasdell, K, Blystad, D, Bojko, J, Borth, W, Bradfute, S, Breyta, R, Briese, T, Brown, P, Brown, J, Buchholz, U, Buchmeier, M, Bukreyev, A, Burt, F, Buttner, C, Calisher, C, Cao, M, Casas, I, Chandran, K, Charrel, R, Cheng, Q, Chiaki, Y, Chiapello, M, Choi, I, Ciuffo, M, Clegg, J, Crozier, I, Dal Bo, E, de la Torre, J, de Lamballerie, X, de Swart, R, Debat, H, Dheilly, N, Di Cicco, E, Di Paola, N, Di Serio, F, Dietzgen, R, Digiaro, M, Dolnik, O, Drebot, M, Drexler, J, Dundon, W, Duprex, W, Durrwald, R, Dye, J, Easton, A, Ebihara, H, Elbeaino, T, Ergunay, K, Ferguson, H, Fooks, A, Forgia, M, Formenty, P, Franova, J, Freitas-Astua, J, Fu, J, Furl, S, Gago-Zachert, S, Gao, G, Garcia, M, Garcia-Sastre, A, Garrison, A, Gaskin, T, Gonzalez, J, Griffiths, A, Goldberg, T, Groschup, M, Gunther, S, Hall, R, Hammond, J, Han, T, Hepojoki, J, Hewson, R, Hong, J, Hong, N, Hongo, S, Horie, M, Hu, J, Hu, T, Hughes, H, Huttner, F, Hyndman, T, Ilyas, M, Jalkanen, R, Jiang, D, Jonson, G, Junglen, S, Kadono, F, Kaukinen, K, Kawate, M, Klempa, B, Klingstrom, J, Kobinger, G, Koloniuk, I, Kondo, H, Koonin, E, Krupovic, M, Kubota, K, Kurath, G, Laenen, L, Lambert, A, Langevin, S, Lee, B, Lefkowitz, E, Leroy, E, Li, S, Li, L, Li, J, Liu, H, Lukashevich, I, Maes, P, de Souza, W, Marklewitz, M, Marshall, S, Marzano, S, Massart, S, Mccauley, J, Melzer, M, Mielke-Ehret, N, Miller, K, Ming, T, Mirazimi, A, Mordecai, G, Muhlbach, H, Muhlberger, E, Naidu, R, Natsuaki, T, Navarro, J, Netesov, S, Neumann, G, Nowotny, N, Nunes, M, Olmedo-Velarde, A, Palacios, G, Pallas, V, Palyi, B, Papa, A, Paraskevopoulou, S, Park, A, Parrish, C, Patterson, D, Pauvolid-Correa, A, Paweska, J, Payne, S, Peracchio, C, Perez, D, Postler, T, Qi, L, Radoshitzky, S, Resende, R, Reyes, C, Rima, B, Luna, G, Romanowski, V, Rota, P, Rubbenstroth, D, Rubino, L, Runstadler, J, Sabanadzovic, S, Sall, A, Salvato, M, Sang, R, Sasaya, T, Schulze, A, Schwemmle, M, Shi, M, Shi, X, Shi, Z, Shimomoto, Y, Shirako, Y, Siddell, S, Simmonds, P, Sironi, M, Smagghe, G, Smither, S, Song, J, Spann, K, Spengler, J, Stenglein, M, Stone, D, Sugano, J, Suttle, C, Tabata, A, Takada, A, Takeuchi, S, Tchouassi, D, Teffer, A, Tesh, R, Thornburg, N, Tomitaka, Y, Tomonaga, K, Tordo, N, Torto, B, Towner, J, Tsuda, S, Tu, C, Turina, M, Tzanetakis, I, Uchida, J, Usugi, T, Vaira, A, Vallino, M, van den Hoogen, B, Varsani, A, Vasilakis, N, Verbeek, M, von Bargen, S, Wada, J, Wahl, V, Walker, P, Wang, L, Wang, G, Wang, Y, Waqas, M, Wei, T, Wen, S, Whitfield, A, Williams, J, Wolf, Y, Wu, J, Xu, L, Yanagisawa, H, Yang, C, Yang, Z, Zerbini, F, Zhai, L, Zhang, Y, Zhang, S, Zhang, J, Zhang, Z, Zhou, X, Kuhn JH, Adkins S, Agwanda BR, Al Kubrusli R, Alkhovsky SV, Amarasinghe GK, Avsic-Zupanc T, Ayllon MA, Bahl J, Balkema-Buschmann A, Ballinger MJ, Basler CF, Bavari S, Beer M, Bejerman N, Bennett AJ, Bente DA, Bergeron E, Bird BH, Blair CD, Blasdell KR, Blystad DR, Bojko J, Borth WB, Bradfute S, Breyta R, Briese T, Brown PA, Brown JK, Buchholz UJ, Buchmeier MJ, Bukreyev A, Burt F, Buttner C, Calisher CH, Cao MJ, Casas I, Chandran K, Charrel RN, Cheng Q, Chiaki Y, Chiapello M, Choi I, Ciuffo M, Clegg JCS, Crozier I, Dal Bo E, de la Torre JC, de Lamballerie X, de Swart RL, Debat H, Dheilly NM, Di Cicco E, Di Paola N, Di Serio F, Dietzgen RG, Digiaro M, Dolnik O, Drebot MA, Drexler JF, Dundon WG, Duprex WP, Durrwald R, Dye JM, Easton AJ, Ebihara H, Elbeaino T, Ergunay K, Ferguson HW, Fooks AR, Forgia M, Formenty PBH, Franova J, Freitas-Astua J, Fu JJ, Furl S, Gago-Zachert S, Gao GF, Garcia ML, Garcia-Sastre A, Garrison AR, Gaskin T, Gonzalez JPJ, Griffiths A, Goldberg TL, Groschup MH, Gunther S, Hall RA, Hammond J, Han T, Hepojoki J, Hewson R, Hong J, Hong N, Hongo S, Horie M, Hu JS, Hu T, Hughes HR, Huttner F, Hyndman TH, Ilyas M, Jalkanen R, Jiang DH, Jonson GB, Junglen S, Kadono F, Kaukinen KH, Kawate M, Klempa B, Klingstrom J, Kobinger G, Koloniuk I, Kondo H, Koonin EV, Krupovic M, Kubota K, Kurath G, Laenen L, Lambert AJ, Langevin SL, Lee B, Lefkowitz EJ, Leroy EM, Li SR, Li LH, Li JR, Liu HZ, Lukashevich IS, Maes P, de Souza WM, Marklewitz M, Marshall SH, Marzano SYL, Massart S, McCauley JW, Melzer M, Mielke-Ehret N, Miller KM, Ming TJ, Mirazimi A, Mordecai GJ, Muhlbach HP, Muhlberger E, Naidu R, Natsuaki T, Navarro JA, Netesov SV, Neumann G, Nowotny N, Nunes MRT, Olmedo-Velarde A, Palacios G, Pallas V, Palyi B, Papa A, Paraskevopoulou S, Park AC, Parrish CR, Patterson DA, Pauvolid-Correa A, Paweska JT, Payne S, Peracchio C, Perez DR, Postler TS, Qi LY, Radoshitzky SR, Resende RO, Reyes CA, Rima BK, Luna GR, Romanowski V, Rota P, Rubbenstroth D, Rubino L, Runstadler JA, Sabanadzovic S, Sall AA, Salvato MS, Sang RS, Sasaya T, Schulze AD, Schwemmle M, Shi M, Shi XH, Shi ZL, Shimomoto Y, Shirako Y, Siddell SG, Simmonds P, Sironi M, Smagghe G, Smither S, Song JW, Spann K, Spengler JR, Stenglein MD, Stone DM, Sugano J, Suttle CA, Tabata A, Takada A, Takeuchi S, Tchouassi DP, Teffer A, Tesh RB, Thornburg NJ, Tomitaka Y, Tomonaga K, Tordo N, Torto B, Towner JS, Tsuda S, Tu CC, Turina M, Tzanetakis IE, Uchida J, Usugi T, Vaira AM, Vallino M, van den Hoogen B, Varsani A, Vasilakis N, Verbeek M, von Bargen S, Wada J, Wahl V, Walker PJ, Wang LF, Wang GP, Wang YX, Wang YQ, Waqas M, Wei TY, Wen SH, Whitfield AE, Williams JV, Wolf YI, Wu JX, Xu L, Yanagisawa H, Yang CX, Yang ZK, Zerbini FM, Zhai L, Zhang YZ, Zhang S, Zhang JG, Zhang Z, and Zhou XP

Abstract

In March 2021, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by four families (Aliusviridae, Crepuscuviridae, Myriaviridae, and Natareviridae), three subfamilies (Alpharhabdovirinae, Betarhabdovirinae, and Gammarhabdovirinae), 42 genera, and 200 species. Thirty-nine species were renamed and/or moved and seven species were abolished. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV.

Published
2021

6. Taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales

Author

Kuhn J.H., Adkins S., Agwanda B.R., Al Kubrusli R., Alkhovsky S.V., Amarasinghe G.K., Avsic-Zupanc T., Ayllon M.A., Bahl J., Balkema-Buschmann A., Ballinger M.J., Basler C.F., Bavari S., Beer M., Bejerman N., Bennett A.J., Bente D.A., Bergeron E., Bird B.H., Blair C.D., Blasdell K.R., Blystad D.-R., Bojko J., Borth W.B., Bradfute S., Breyta R., Briese T., Brown P.A., Brown J.K., Buchholz U.J., Buchmeier M.J., Bukreyev A., Burt F., Buttner C., Calisher C.H., Cao M., Casas I., Chandran K., Charrel R.N., Cheng Q., Chiaki Y., Chiapello M., Choi I.-R., Ciuffo M., Clegg J.C.S., Crozier I., Dal Bo E., de la Torre J.C., de Lamballerie X., de Swart R.L., Debat H., Dheilly N.M., Di Cicco E., Di Paola N., Di Serio F., Dietzgen R.G., Digiaro M., Dolnik O., Drebot M.A., Drexler J.F., Dundon W.G., Duprex W.P., Durrwald R., Dye J.M., Easton A.J., Ebihara H., Elbeaino T., Ergunay K., Ferguson H.W., Fooks A.R., Forgia M., Formenty P.B.H., Franova J., Freitas-Astua J., Fu J., Furl S., Gago-Zachert S., Gao G.F., Garcia M.L., Garcia-Sastre A., Garrison A.R., Gaskin T., Gonzalez J.-P.J., Griffiths A., Goldberg T.L., Groschup M.H., Gunther S., Hall R.A., Hammond J., Han T., Hepojoki J., Hewson R., Hong J., Hong N., Hongo S., Horie M., Hu J.S., Hu T., Hughes H.R., Huttner F., Hyndman T.H., Ilyas M., Jalkanen R., Jiang D., Jonson G.B., Junglen S., Kadono F., Kaukinen K.H., Kawate M., Klempa B., Klingstrom J., Kobinger G., Koloniuk I., Kondo H., Koonin E.V., Krupovic M., Kubota K., Kurath G., Laenen L., Lambert A.J., Langevin S.L., Lee B., Lefkowitz E.J., Leroy E.M., Li S., Li L., Li J., Liu H., Lukashevich I.S., Maes P., de Souza W.M., Marklewitz M., Marshall S.H., Marzano S.-Y.L., Massart S., McCauley J.W., Melzer M., Mielke-Ehret N., Miller K.M., Ming T.J., Mirazimi A., Mordecai G.J., Muhlbach H.-P., Muhlberger E., Naidu R., Natsuaki T., Navarro J.A., Netesov S.V., Neumann G., Nowotny N., Nunes M.R.T., Olmedo-Velarde A., Palacios G., Pallas V., Palyi B., Papa A., Paraskevopoulou S., Park A.C., Parrish C.R., Patterson D.A., Pauvolid-Correa A., Paweska J.T., Payne S., Peracchio C., Perez D.R., Postler T.S., Qi L., Radoshitzky S.R., Resende R.O., Reyes C.A., Rima B.K., Luna G.R., Romanowski V., Rota P., Rubbenstroth D., Rubino L., Runstadler J.A., Sabanadzovic S., Sall A.A., Salvato M.S., Sang R., Sasaya T., Schulze A.D., Schwemmle M., Shi M., Shi X., Shi Z., Shimomoto Y., Shirako Y., Siddell S.G., Simmonds P., Sironi M., Smagghe G., Smither S., Song J.-W., Spann K., Spengler J.R., Stenglein M.D., Stone D.M., Sugano J., Suttle C.A., Tabata A., Takada A., Takeuchi S., Tchouassi D.P., Teffer A., Tesh R.B., Thornburg N.J., Tomitaka Y., Tomonaga K., Tordo N., Torto B., Towner J.S., Tsuda S., Tu C., Turina M., Tzanetakis I.E., Uchida J., Usugi T., Vaira A.M., Vallino M., van den Hoogen B., Varsani A., Vasilakis N., Verbeek M., von Bargen S., Wada J., Wahl V., Walker P.J., Wang L.-F., Wang G., Wang Y., Waqas M., Wei T., Wen S., Whitfield A.E., Williams J.V., Wolf Y.I., Wu J., Xu L., Yanagisawa H., Yang C., Yang Z., Zerbini F.M., Zhai L., Zhang Y.-Z., Zhang S., Zhang J., Zhang Z., and Zhou X.

Subjects
Virus classification, Negative-stranded RNA viruses
Abstract

In March 2021, following the annual International Committee on Taxonomy of Viruses (ICTV) ratifcation vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by four families (Aliusviridae, Crepuscuviridae, Myriaviridae, and Natareviridae), three subfamilies (Alpharhabdovirinae, Betarhabdovirinae, and Gammarhabdovirinae), 42 genera, and 200 species. Thirty-nine species were renamed and/ or moved and seven species were abolished. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV

Published
2021
Full Text
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7. 2021 Taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales

Author

Kuhn, J.H., Adkins, S., Agwanda, B.R., Al Kubrusli, R., Alkhovsky, S.V., Amarasinghe, G.K., Avšič-Županc, T., Ayllón, M.A., Bahl, J., Balkema-Buschmann, A., Ballinger, M.J., Basler, C.F., Bavari, S., Beer, M., Bejerman, N., Bennett, A.J., Bente, D.A., Bergeron, É., Bird, B.H., Blair, C.D., Blasdell, K.R., Blystad, D-R, Bojko, J., Borth, W.B., Bradfute, S., Breyta, R., Briese, T., Brown, P.A., Brown, J.K., Buchholz, U.J., Buchmeier, M.J., Bukreyev, A., Burt, F., Büttner, C., Calisher, C.H., Cao, M., Casas, I., Chandran, K., Charrel, R.N., Cheng, Q., Chiaki, Y., Chiapello, M., Choi, I-R, Ciuffo, M., Clegg, J.C.S., Crozier, I., Dal Bó, E., de la Torre, J.C., de Lamballerie, X., de Swart, R.L., Debat, H., Dheilly, N.M., Di Cicco, E., Di Paola, N., Di Serio, F., Dietzgen, R.G., Digiaro, M., Dolnik, O., Drebot, M.A., Drexler, J.F., Dundon, W.G., Duprex, W.P., Dürrwald, R., Dye, J.M., Easton, A.J., Ebihara, H., Elbeaino, T., Ergünay, K., Ferguson, H.W., Fooks, A.R., Forgia, M., Formenty, P.B.H., Fránová, J., Freitas-Astúa, J., Fu, J., Fürl, S., Gago-Zachert, S., Gāo, G.F., García, M.L., García-Sastre, A., Garrison, A.R., Gaskin, T., Gonzalez, J-P.J., Griffiths, A., Goldberg, T.L., Groschup, M.H., Günther, S., Hall, R.A., Hammond, J., Han, T., Hepojoki, J., Hewson, R., Hong, J., Hong, N., Hongo, S., Horie, M., Hu, J.S., Hu, T., Hughes, H.R., Hüttner, F., Hyndman, T.H., Ilyas, M., Jalkanen, R., Jiāng, D., Jonson, G.B., Junglen, S., Kadono, F., Kaukinen, K.H., Kawate, M., Klempa, B., Klingström, J., Kobinger, G., Koloniuk, I., Kondo, H., Koonin, E.V., Krupovic, M., Kubota, K., Kurath, G., Laenen, L., Lambert, A.J., Langevin, S.L., Lee, B., Lefkowitz, E.J., Leroy, E.M., Li, S., Li, L., Lǐ, J., Liu, H., Lukashevich, I.S., Maes, P., de Souza, W.M., Marklewitz, M., Marshall, S.H., Marzano, S-Y.L., Massart, S., McCauley, J.W., Melzer, M., Mielke-Ehret, N., Miller, K.M., Ming, T.J., Mirazimi, A., Mordecai, G.J., Mühlbach, H-P, Mühlberger, E., Naidu, R., Natsuaki, T., Navarro, J.A., Netesov, S.V., Neumann, G., Nowotny, N., Nunes, M.R.T., Olmedo-Velarde, A., Palacios, G., Pallas, V., Pályi, B., Papa, A., Paraskevopoulou, S., Park, A.C., Parrish, C.R., Patterson, D.A., Pauvolid-Corrêa, A., Pawęska, J.T., Payne, S., Peracchio, C., Pérez, D.R., Postler, T.S., Qi, L., Radoshitzky, S.R., Resende, R.O., Reyes, C.A., Rima, B.K., Luna, G.R., Romanowski, V., Rota, P., Rubbenstroth, D., Rubino, L., Runstadler, J.A., Sabanadzovic, S., Sall, A.A., Salvato, M.S., Sang, R., Sasaya, T., Schulze, A.D., Schwemmle, M., Shi, M., Shi, X., Shí, Z., Shimomoto, Y., Shirako, Y., Siddell, S.G., Simmonds, P., Sironi, M., Smagghe, G., Smither, S., Song, J-W, Spann, K., Spengler, J.R., Stenglein, M.D., Stone, D.M., Sugano, J., Suttle, C.A., Tabata, A., Takada, A., Takeuchi, S., Tchouassi, D.P., Teffer, A., Tesh, R.B., Thornburg, N.J., Tomitaka, Y., Tomonaga, K., Tordo, N., Torto, B., Towner, J.S., Tsuda, S., Tu, C., Turina, M., Tzanetakis, I.E., Uchida, J., Usugi, T., Vaira, A.M., Vallino, M., van den Hoogen, B., Varsani, A., Vasilakis, N., Verbeek, M., von Bargen, S., Wada, J., Wahl, V., Walker, P.J., Wang, L-F, Wang, G., Wang, Y., Waqas, M., Wèi, T., Wen, S., Whitfield, A.E., Williams, J.V., Wolf, Y.I., Wu, J., Xu, L., Yanagisawa, H., Yang, C., Yang, Z., Zerbini, F.M., Zhai, L., Zhang, Y-Z, Zhang, S., Zhang, J., Zhang, Z., Zhou, X., Kuhn, J.H., Adkins, S., Agwanda, B.R., Al Kubrusli, R., Alkhovsky, S.V., Amarasinghe, G.K., Avšič-Županc, T., Ayllón, M.A., Bahl, J., Balkema-Buschmann, A., Ballinger, M.J., Basler, C.F., Bavari, S., Beer, M., Bejerman, N., Bennett, A.J., Bente, D.A., Bergeron, É., Bird, B.H., Blair, C.D., Blasdell, K.R., Blystad, D-R, Bojko, J., Borth, W.B., Bradfute, S., Breyta, R., Briese, T., Brown, P.A., Brown, J.K., Buchholz, U.J., Buchmeier, M.J., Bukreyev, A., Burt, F., Büttner, C., Calisher, C.H., Cao, M., Casas, I., Chandran, K., Charrel, R.N., Cheng, Q., Chiaki, Y., Chiapello, M., Choi, I-R, Ciuffo, M., Clegg, J.C.S., Crozier, I., Dal Bó, E., de la Torre, J.C., de Lamballerie, X., de Swart, R.L., Debat, H., Dheilly, N.M., Di Cicco, E., Di Paola, N., Di Serio, F., Dietzgen, R.G., Digiaro, M., Dolnik, O., Drebot, M.A., Drexler, J.F., Dundon, W.G., Duprex, W.P., Dürrwald, R., Dye, J.M., Easton, A.J., Ebihara, H., Elbeaino, T., Ergünay, K., Ferguson, H.W., Fooks, A.R., Forgia, M., Formenty, P.B.H., Fránová, J., Freitas-Astúa, J., Fu, J., Fürl, S., Gago-Zachert, S., Gāo, G.F., García, M.L., García-Sastre, A., Garrison, A.R., Gaskin, T., Gonzalez, J-P.J., Griffiths, A., Goldberg, T.L., Groschup, M.H., Günther, S., Hall, R.A., Hammond, J., Han, T., Hepojoki, J., Hewson, R., Hong, J., Hong, N., Hongo, S., Horie, M., Hu, J.S., Hu, T., Hughes, H.R., Hüttner, F., Hyndman, T.H., Ilyas, M., Jalkanen, R., Jiāng, D., Jonson, G.B., Junglen, S., Kadono, F., Kaukinen, K.H., Kawate, M., Klempa, B., Klingström, J., Kobinger, G., Koloniuk, I., Kondo, H., Koonin, E.V., Krupovic, M., Kubota, K., Kurath, G., Laenen, L., Lambert, A.J., Langevin, S.L., Lee, B., Lefkowitz, E.J., Leroy, E.M., Li, S., Li, L., Lǐ, J., Liu, H., Lukashevich, I.S., Maes, P., de Souza, W.M., Marklewitz, M., Marshall, S.H., Marzano, S-Y.L., Massart, S., McCauley, J.W., Melzer, M., Mielke-Ehret, N., Miller, K.M., Ming, T.J., Mirazimi, A., Mordecai, G.J., Mühlbach, H-P, Mühlberger, E., Naidu, R., Natsuaki, T., Navarro, J.A., Netesov, S.V., Neumann, G., Nowotny, N., Nunes, M.R.T., Olmedo-Velarde, A., Palacios, G., Pallas, V., Pályi, B., Papa, A., Paraskevopoulou, S., Park, A.C., Parrish, C.R., Patterson, D.A., Pauvolid-Corrêa, A., Pawęska, J.T., Payne, S., Peracchio, C., Pérez, D.R., Postler, T.S., Qi, L., Radoshitzky, S.R., Resende, R.O., Reyes, C.A., Rima, B.K., Luna, G.R., Romanowski, V., Rota, P., Rubbenstroth, D., Rubino, L., Runstadler, J.A., Sabanadzovic, S., Sall, A.A., Salvato, M.S., Sang, R., Sasaya, T., Schulze, A.D., Schwemmle, M., Shi, M., Shi, X., Shí, Z., Shimomoto, Y., Shirako, Y., Siddell, S.G., Simmonds, P., Sironi, M., Smagghe, G., Smither, S., Song, J-W, Spann, K., Spengler, J.R., Stenglein, M.D., Stone, D.M., Sugano, J., Suttle, C.A., Tabata, A., Takada, A., Takeuchi, S., Tchouassi, D.P., Teffer, A., Tesh, R.B., Thornburg, N.J., Tomitaka, Y., Tomonaga, K., Tordo, N., Torto, B., Towner, J.S., Tsuda, S., Tu, C., Turina, M., Tzanetakis, I.E., Uchida, J., Usugi, T., Vaira, A.M., Vallino, M., van den Hoogen, B., Varsani, A., Vasilakis, N., Verbeek, M., von Bargen, S., Wada, J., Wahl, V., Walker, P.J., Wang, L-F, Wang, G., Wang, Y., Waqas, M., Wèi, T., Wen, S., Whitfield, A.E., Williams, J.V., Wolf, Y.I., Wu, J., Xu, L., Yanagisawa, H., Yang, C., Yang, Z., Zerbini, F.M., Zhai, L., Zhang, Y-Z, Zhang, S., Zhang, J., Zhang, Z., and Zhou, X.

Abstract

In March 2021, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by four families (Aliusviridae, Crepuscuviridae, Myriaviridae, and Natareviridae), three subfamilies (Alpharhabdovirinae, Betarhabdovirinae, and Gammarhabdovirinae), 42 genera, and 200 species. Thirty-nine species were renamed and/or moved and seven species were abolished. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV.

Published
2021

8. Correction to: 2021 Taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales

Author

Kuhn, J.H., Adkins, S., Agwanda, B.R., Al Kubrusli, R., Alkhovsky, S.V., Amarasinghe, G.K., Avšič-Županc, T., Ayllón, M.A., Bahl, J., Balkema-Buschmann, A., Ballinger, M.J., Basler, C.F., Bavari, S., Beer, M., Bejerman, N., Bennett, A.J., Bente, D.A., Bergeron, É., Bird, B.H., Blair, C.D., Blasdell, K.R., Blystad, D-R, Bojko, J., Borth, W.B., Bradfute, S., Breyta, R., Briese, T., Brown, P.A., Brown, J.K., Buchholz, U.J., Buchmeier, M.J., Bukreyev, A., Burt, F., Büttner, C., Calisher, C.H., Cao, M., Casas, I., Chandran, K., Charrel, R.N., Cheng, Q., Chiaki, Y., Chiapello, M., Choi, I-R, Ciuffo, M., Clegg, J.C.S., Crozier, I., Dal Bó, E., de la Torre, J.C., de Lamballerie, X., de Swart, R.L., Debat, H., Dheilly, N.M., Di Cicco, E., Di Paola, N., Di Serio, F., Dietzgen, R.G., Digiaro, M., Dolnik, O., Drebot, M.A., Drexler, J.F., Dundon, W.G., Duprex, W.P., Dürrwald, R., Dye, J.M., Easton, A.J., Ebihara, H., Elbeaino, T., Ergünay, K., Ferguson, H.W., Fooks, A.R., Forgia, M., Formenty, P.B.H., Fránová, J., Freitas-Astúa, J., Fu, J., Fürl, S., Gago-Zachert, S., Gāo, G.F., García, M.L., García-Sastre, A., Garrison, A.R., Gaskin, T., Gonzalez, J-P.J., Griffiths, A., Goldberg, T.L., Groschup, M.H., Günther, S., Hall, R.A., Hammond, J., Han, T., Hepojoki, J., Hewson, R., Hong, J., Hong, N., Hongo, S., Horie, M., Hu, J.S., Hu, T., Hughes, H.R., Hüttner, F., Hyndman, T.H., Ilyas, M., Jalkanen, R., Jiāng, D., Jonson, G.B., Junglen, S., Kadono, F., Kaukinen, K.H., Kawate, M., Klempa, B., Klingström, J., Kobinger, G., Koloniuk, I., Kondo, H., Koonin, E.V., Krupovic, M., Kubota, K., Kurath, G., Laenen, L., Lambert, A.J., Langevin, S.L., Lee, B., Lefkowitz, E.J., Leroy, E.M., Li, S., Li, L., Lǐ, J., Liu, H., Lukashevich, I.S., Maes, P., de Souza, W.M., Marklewitz, M., Marshall, S.H., Marzano, S-Y.L., Massart, S., McCauley, J.W., Melzer, M., Mielke-Ehret, N., Miller, K.M., Ming, T.J., Mirazimi, A., Mordecai, G.J., Mühlbach, H-P, Mühlberger, E., Naidu, R., Natsuaki, T., Navarro, J.A., Netesov, S.V., Neumann, G., Nowotny, N., Nunes, M.R.T., Olmedo-Velarde, A., Palacios, G., Pallás, V., Pályi, B., Papa, A., Paraskevopoulou, S., Park, A.C., Parrish, C.R., Patterson, D.A., Pauvolid-Corrêa, A., Pawęska, J.T., Payne, S., Peracchio, C., Pérez, D.R., Postler, T.S., Qi, L., Radoshitzky, S.R., Resende, R.O., Reyes, C.A., Rima, B.K., Luna, G.R., Romanowski, V., Rota, P., Rubbenstroth, D., Rubino, L., Runstadler, J.A., Sabanadzovic, S., Sall, A.A., Salvato, M.S., Sang, R., Sasaya, T., Schulze, A.D., Schwemmle, M., Shi, M., Shí, X., Shí, Z., Shimomoto, Y., Shirako, Y., Siddell, S.G., Simmonds, P., Sironi, M., Smagghe, G., Smither, S., Song, J-W, Spann, K., Spengler, J.R., Stenglein, M.D., Stone, D.M., Sugano, J., Suttle, C.A., Tabata, A., Takada, A., Takeuchi, S., Tchouassi, D.P., Teffer, A., Tesh, R.B., Thornburg, N. J., Tomitaka, Y., Tomonaga, K., Tordo, N., Torto, B., Towner, J.S., Tsuda, S., Tu, C., Turina, M., Tzanetakis, I.E., Uchida, J., Usugi, T., Vaira, A.M., Vallino, M., van den Hoogen, B., Varsani, A., Vasilakis, N., Verbeek, M., von Bargen, S., Wada, J., Wahl, V., Walker, P.J., Wang, L-F, Wang, G., Wang, Y., Waqas, M., Wèi, T., Wen, S., Whitfield, A.E., Williams, J.V., Wolf, Y.I., Wu, J., Xu, L., Yanagisawa, H., Yang, C., Yang, Z., Zerbini, F.M., Zhai, L., Zhang, Y-Z, Zhang, S., Zhang, J., Zhang, Z., Zhou, X., Kuhn, J.H., Adkins, S., Agwanda, B.R., Al Kubrusli, R., Alkhovsky, S.V., Amarasinghe, G.K., Avšič-Županc, T., Ayllón, M.A., Bahl, J., Balkema-Buschmann, A., Ballinger, M.J., Basler, C.F., Bavari, S., Beer, M., Bejerman, N., Bennett, A.J., Bente, D.A., Bergeron, É., Bird, B.H., Blair, C.D., Blasdell, K.R., Blystad, D-R, Bojko, J., Borth, W.B., Bradfute, S., Breyta, R., Briese, T., Brown, P.A., Brown, J.K., Buchholz, U.J., Buchmeier, M.J., Bukreyev, A., Burt, F., Büttner, C., Calisher, C.H., Cao, M., Casas, I., Chandran, K., Charrel, R.N., Cheng, Q., Chiaki, Y., Chiapello, M., Choi, I-R, Ciuffo, M., Clegg, J.C.S., Crozier, I., Dal Bó, E., de la Torre, J.C., de Lamballerie, X., de Swart, R.L., Debat, H., Dheilly, N.M., Di Cicco, E., Di Paola, N., Di Serio, F., Dietzgen, R.G., Digiaro, M., Dolnik, O., Drebot, M.A., Drexler, J.F., Dundon, W.G., Duprex, W.P., Dürrwald, R., Dye, J.M., Easton, A.J., Ebihara, H., Elbeaino, T., Ergünay, K., Ferguson, H.W., Fooks, A.R., Forgia, M., Formenty, P.B.H., Fránová, J., Freitas-Astúa, J., Fu, J., Fürl, S., Gago-Zachert, S., Gāo, G.F., García, M.L., García-Sastre, A., Garrison, A.R., Gaskin, T., Gonzalez, J-P.J., Griffiths, A., Goldberg, T.L., Groschup, M.H., Günther, S., Hall, R.A., Hammond, J., Han, T., Hepojoki, J., Hewson, R., Hong, J., Hong, N., Hongo, S., Horie, M., Hu, J.S., Hu, T., Hughes, H.R., Hüttner, F., Hyndman, T.H., Ilyas, M., Jalkanen, R., Jiāng, D., Jonson, G.B., Junglen, S., Kadono, F., Kaukinen, K.H., Kawate, M., Klempa, B., Klingström, J., Kobinger, G., Koloniuk, I., Kondo, H., Koonin, E.V., Krupovic, M., Kubota, K., Kurath, G., Laenen, L., Lambert, A.J., Langevin, S.L., Lee, B., Lefkowitz, E.J., Leroy, E.M., Li, S., Li, L., Lǐ, J., Liu, H., Lukashevich, I.S., Maes, P., de Souza, W.M., Marklewitz, M., Marshall, S.H., Marzano, S-Y.L., Massart, S., McCauley, J.W., Melzer, M., Mielke-Ehret, N., Miller, K.M., Ming, T.J., Mirazimi, A., Mordecai, G.J., Mühlbach, H-P, Mühlberger, E., Naidu, R., Natsuaki, T., Navarro, J.A., Netesov, S.V., Neumann, G., Nowotny, N., Nunes, M.R.T., Olmedo-Velarde, A., Palacios, G., Pallás, V., Pályi, B., Papa, A., Paraskevopoulou, S., Park, A.C., Parrish, C.R., Patterson, D.A., Pauvolid-Corrêa, A., Pawęska, J.T., Payne, S., Peracchio, C., Pérez, D.R., Postler, T.S., Qi, L., Radoshitzky, S.R., Resende, R.O., Reyes, C.A., Rima, B.K., Luna, G.R., Romanowski, V., Rota, P., Rubbenstroth, D., Rubino, L., Runstadler, J.A., Sabanadzovic, S., Sall, A.A., Salvato, M.S., Sang, R., Sasaya, T., Schulze, A.D., Schwemmle, M., Shi, M., Shí, X., Shí, Z., Shimomoto, Y., Shirako, Y., Siddell, S.G., Simmonds, P., Sironi, M., Smagghe, G., Smither, S., Song, J-W, Spann, K., Spengler, J.R., Stenglein, M.D., Stone, D.M., Sugano, J., Suttle, C.A., Tabata, A., Takada, A., Takeuchi, S., Tchouassi, D.P., Teffer, A., Tesh, R.B., Thornburg, N. J., Tomitaka, Y., Tomonaga, K., Tordo, N., Torto, B., Towner, J.S., Tsuda, S., Tu, C., Turina, M., Tzanetakis, I.E., Uchida, J., Usugi, T., Vaira, A.M., Vallino, M., van den Hoogen, B., Varsani, A., Vasilakis, N., Verbeek, M., von Bargen, S., Wada, J., Wahl, V., Walker, P.J., Wang, L-F, Wang, G., Wang, Y., Waqas, M., Wèi, T., Wen, S., Whitfield, A.E., Williams, J.V., Wolf, Y.I., Wu, J., Xu, L., Yanagisawa, H., Yang, C., Yang, Z., Zerbini, F.M., Zhai, L., Zhang, Y-Z, Zhang, S., Zhang, J., Zhang, Z., and Zhou, X.

Abstract

Unfortunately, the inclusion of original names (in non-Latin script) of the following authors caused problems with author name indexing in PubMed. Therefore, these original names were removed from XML data to correct the PubMed record...

Published
2021

9. Calibration of the SPEARpesticides bioindicator for cost-effective pesticide monitoring in East African streams

Author

Ganatra, A.A., Kandie, Faith Jebiwot, Fillinger, U., McOdimba, F., Torto, B., Brack, Werner, Liess, Matthias, Hollert, H., Becker, Jeremias, Ganatra, A.A., Kandie, Faith Jebiwot, Fillinger, U., McOdimba, F., Torto, B., Brack, Werner, Liess, Matthias, Hollert, H., and Becker, Jeremias

Abstract

Background Pesticides are washed from agricultural fields into adjacent streams, where even short-term exposure causes long-term ecological damage. Detecting pesticide pollution in streams thus requires the expensive monitoring of peak concentrations during run-off events. Alternatively, exposure and ecological effects can be assessed using the SPEARpesticides bioindicator that quantifies pesticide-related changes in the macroinvertebrate community composition. SPEARpesticides has been developed in Central Europe and validated in other parts of Europe, Australia and South America; here we investigated its performance in East African streams. Results With minimal adaptations of the SPEARpesticdes index, we successfully characterized pesticide pollution in 13 streams located in Western Kenya. The East African SPEARpesticides index correlated well with the overall toxicity of 30 pesticides (maximum toxic unit = maximum environmental vs. median lethal concentration) measured in stream water (R2 = 0.53). Similarly, the SPEARpesticides index correlated with the risk of surface run-off from agricultural fields (as identified based on ground slope in the catchment area and the width of protective riparian strips, R2 = 0.45). Unlike other bioindicators designed to indicate general water pollution, SPEARpesticides was independent of organic pollution and highly specific to pesticides. In 23% of the streams, pesticides exceeded concentrations considered environmentally safe based on European first tiered risk assessment. Conclusions Increasing contamination was associated with considerable changes in the macroinvertebrate community composition. We conclude that pesticides need to be better regulated also in developing countries. SPEARpesticides provides a straightforward and cost-efficient tool for the required monitoring of pesticide exposure in small to medium streams.

Published
2021

11. Pesticide pollution in freshwater paves the way for schistosomiasis transmission

Author

Becker, Jeremias, Ganatra, A.A., Kandie, F., Mühlbauer, Lina, Ahlheim, Jörg, Brack, Werner, Torto, B., Agola, E.L., McOdimba, F., Hollert, H., Fillinger, U., Liess, Matthias, Becker, Jeremias, Ganatra, A.A., Kandie, F., Mühlbauer, Lina, Ahlheim, Jörg, Brack, Werner, Torto, B., Agola, E.L., McOdimba, F., Hollert, H., Fillinger, U., and Liess, Matthias

Abstract

Schistosomiasis is a severe neglected tropical disease caused by trematodes and transmitted by freshwater snails. Snails are known to be highly tolerant to agricultural pesticides. However, little attention has been paid to the ecological consequences of pesticide pollution in areas endemic for schistosomiasis, where people live in close contact with non-sanitized freshwaters. In complementary laboratory and field studies on Kenyan inland areas along Lake Victoria, we show that pesticide pollution is a major driver in increasing the occurrence of host snails and thus the risk of schistosomiasis transmission. In the laboratory, snails showed higher insecticide tolerance to commonly found pesticides than associated invertebrates, in particular to the neonicotinoid Imidacloprid and the organophosphate Diazinon. In the field, we demonstrated at 48 sites that snails were present exclusively in habitats characterized by pesticide pollution and eutrophication. Our analysis revealed that insensitive snails dominated over their less tolerant competitors. The study shows for the first time that in the field, pesticide concentrations considered “safe” in environmental risk assessment have indirect effects on human health. Thus we conclude there is a need for rethinking the environmental risk of low pesticide concentrations and of integrating agricultural mitigation measures in the control of schistosomiasis.

Published
2020

12. Multi-compartment chemical characterization and risk assessment of chemicals of emerging concern in freshwater systems of western Kenya

Author

Kandie, Faith Jebiwot, Krauss, Martin, Massei, Riccardo, Ganatra, A.A., Fillinger, U., Becker, Jeremias, Liess, Matthias, Torto, B., Brack, Werner, Kandie, Faith Jebiwot, Krauss, Martin, Massei, Riccardo, Ganatra, A.A., Fillinger, U., Becker, Jeremias, Liess, Matthias, Torto, B., and Brack, Werner

Abstract

Background Within the last decades, there has been increasing research on the occurrence of chemicals of emerging concern (CECs) in aquatic ecosystems due to their potential adverse effects on freshwater organisms and risk to human health. However, information on CECs in freshwater environments in sub-Saharan countries is very limited. Here, we investigated the occurrence of CECs in snails and sediments collected from 48 sites within the Lake Victoria South Basin, Kenya, which have been previously investigated for water contamination. Samples were analyzed by liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS) with a target list of 429 compounds.Results In total, 30 compounds have been detected in snails and 78 in sediment samples, compared to 79 previously identified compounds in water. By extending the monitoring of CECs to snails and sediments, we found 68 compounds that were not previously detected in water. These compounds include the anti-cancer drug anastrozole, detected for the first time in the Kenyan environment. Individual compound concentrations were detected up to 480 ng/g wet weight (N-ethyl-o-toluenesulfonamide) in snails and 110 ng/g organic carbon (pirimiphos-methyl) in sediments. Higher contaminant concentrations were found in agricultural sites than in areas not impacted by anthropogenic activities. Crustaceans were the organisms at greatest toxic risk from sediment contamination (toxic unit (TU) up to 0.99) with diazinon and pirimiphos-methyl driving this risk. Acute and chronic risks to algae were driven by diuron (TU up to 0.24), whereas fish were found to be at low to no acute risk (TU up to 0.007).Conclusions The compound classes present at highest frequencies in all matrices were pesticides and biocides. This study shows substantial contamination of surface water in rural western Kenya. By filling data gaps on contamination of sediments and aquatic biota, our study reveals that CECs pose a substanti

Published
2020

16. Caterpillar-induced plant volatiles attract conspecific and heterospecific adults for oviposition within a community of lepidopteran stemborers on maize plant

Author

Sokame, B. M., Ntiri, E. S., Ahuya, P., Torto, B., Le Rü, Bruno, Kilalo, D. C., Juma, G., and Calatayud, Paul-André

Subjects
Maize plant, Volatiles, animal structures, parasitic diseases, fungi, Interactions, food and beverages, Lepidoptera stemborers, Olfaction
Abstract

Olfactory cues may influence host plant preferences for oviposition of female moths within a community of stemborers that utilise the same resource. This study aimed to evaluate plant preferences for oviposition of gravid females of noctuid stemborers, Busseola fusca and Sesamia calamistis, and the crambid Chilo partellus for uninfested maize plants and plants infested by conspecific or heterospecific larvae. The involvement of volatile organic compounds (VOCs) emitted by uninfested and maize plants infested by conspecific or heterospecific larvae on moth orientation was studied in Y-tube olfactometer assays and in the field. All gravid female moths significantly preferred VOCs emitted by plants infested by conspecific or heterospecific larvae over those from uninfested plants, and female moths did not systematically prefer VOCs emitted by plants infested by conspecifics. Field trials confirmed these results. Chemical analysis by coupled gas chromatography/mass spectrometry showed that VOCs emitted by larvae-infested plants, regardless of the stemborer species, were compositionally richer than those released by uninfested plants but their emission intensity varied with species involved in the infestation. Busseola fusca larvae induced a compositionally richer VOCs profile than S. calamistis and C. partellus larvae. Eight candidate attractants were associated with larvae-infested plants. These results open new avenues to develop attractants specific to trap female stemborer moths in the field.

Published
2019

18. Plant sugar feeding patterns of wild‐caught Aedes aegypti from dengue endemic and non‐endemic areas of Kenya.

Author

Wanjiku, C., Tchouassi, D. P, Sole, C. L, Pirk, C., and Torto, B.

Subjects
AEDES aegypti, SUGAR crops, DENGUE, MOSQUITO vectors, HOST plants, ARBOVIRUS diseases, MOSQUITOES
Abstract

A fundamental understanding of plant sugar feeding behaviour in vector populations can lead to the development of ecologically effective vector monitoring and control strategies. Despite previous studies on mosquito–plant interactions, relatively few have been conducted on the dengue vector Aedes aegypti (Diptera: Culicidae). The authors studied Ae. aegypti–plant interactions at two sites of varying dengue endemicity in Kenya: Kilifi (endemic) and Isiolo (non‐endemic). Using chemical and molecular assays [DNA barcoding targeting the chloroplast ribulose‐1,5 bisphosphate carboxylase/oxygenase large chain (rbcL) gene], the authors show that at the two sites plant feeding in this mosquito species: (a) varies by sex and season; (b) results in the acquisition of diverse sugars, and (c) is associated with diverse host plants in the families Fabaceae, Malvaceae, Poaceae and Rosaceae. These results reveal insights into the plant sugar feeding patterns of wild‐caught Ae. aegypti and provide a baseline for future studies on the olfactory basis for host plant attraction for the development of vector monitoring and control tools. [ABSTRACT FROM AUTHOR]

Published
2021
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19. Discovery of an oviposition attractant for gravid malaria vectors of the Anopheles gambiae species complex

Author

Lindh, Jenny M., Okal, M. N., Herrera-Varela, M., Borg-Karlson, Anna Karin, Torto, B., Lindsay, S. W., Fillinger, U., Lindh, Jenny M., Okal, M. N., Herrera-Varela, M., Borg-Karlson, Anna Karin, Torto, B., Lindsay, S. W., and Fillinger, U.

Abstract

Background: New strategies are needed to manage malaria vector populations that resist insecticides and bite outdoors. This study describes a breakthrough in developing 'attract and kill' strategies targeting gravid females by identifying and evaluating an oviposition attractant for Anopheles gambiae s.l. Methods: Previously, the authors found that gravid An. gambiae s.s. females were two times more likely to lay eggs in lake water infused for six days with soil from a natural oviposition site in western Kenya compared to lake water alone or to the same but autoclaved infusion. Here, the volatile chemicals released from these substrates were analysed with a gas-chromatograph coupled to a mass-spectrometer (GC-MS). Furthermore, the behavioural responses of gravid females to one of the compounds identified were evaluated in dual choice egg-count bioassays, in dual-choice semi-field experiments with odour-baited traps and in field bioassays. Results: One of the soil infusion volatiles was readily identified as the sesquiterpene alcohol cedrol. Its widespread presence in natural aquatic habitats in the study area was confirmed by analysing the chemical headspace of 116 water samples collected from different aquatic sites in the field and was therefore selected for evaluation in oviposition bioassays. Twice as many gravid females were attracted to cedrol-treated water than to water alone in two choice cage bioassays (odds ratio (OR) 1.84; 95% confidence interval (CI) 1.16-2.91) and in experiments conducted in large-screened cages with free-flying mosquitoes (OR 1.92; 95% CI 1.63-2.27). When tested in the field, wild malaria vector females were three times more likely to be collected in the traps baited with cedrol than in the traps containing water alone (OR 3.3; 95% CI 1.4-7.9). Conclusion: Cedrol is the first compound confirmed as an oviposition attractant for gravid An. gambiae s.l. This finding paves the way for developing new 'attract and kill strategies' for malari, QC 20150527

Published
2015
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32. Behavioural response of the malaria vector Anopheles gambiae to host plant volatiles and synthetic blends

Author

Nyasembe Vincent O, Teal Peter EA, Mukabana Wolfgang R, Tumlinson James H, and Torto Baldwyn

Subjects
Sugar feeding, Host plants, An. gambiae s.s, Malaria vector, Attractant, Terpenoids, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Sugar feeding is critical for survival of malaria vectors and, although discriminative plant feeding previously has been shown to occur in Anopheles gambiae s.s., little is known about the cues mediating attraction to these plants. In this study, we investigated the role of olfaction in An. gambiae discriminative feeding behaviour. Methods Dual choice olfactometer assays were used to study odour discrimination by An. gambiae to three suspected host plants: Parthenium hysterophorus (Asteraceae), Bidens pilosa (Asteraceae) and Ricinus communis (Euphorbiaceae). Sugar content of the three plant species was determined by analysis of their trimethylsilyl derivatives by coupled gas chromatography–mass spectrometry (GC-MS) and confirmed with authentic standards. Volatiles from intact plants of the three species were collected on Super Q and analyzed by coupled GC-electroantennographic detection (GC-EAD) and GC-MS to identify electrophysiologically-active components whose identities were also confirmed with authentic standards. Active compounds and blends were formulated using dose–response olfactory bioassays. Responses of females were converted into preference indices and analyzed by chi-square tests. The amounts of common behaviourally-active components released by the three host plants were compared with one-way ANOVA. Results Overall, the sugar contents were similar in the two Asteraceae plants, P. hysterophorus and B. pilosa, but richer in R. communis. Odours released by P. hysterophorus were the most attractive, with those from B. pilosa being the least attractive to females in the olfactometer assays. Six EAD-active components identified were consistently detected by the antennae of adult females. The amounts of common antennally-active components released varied with the host plant, with the highest amounts released by P. hysterophorus. In dose–response assays, single compounds and blends of these components were attractive to females but to varying levels, with one of the blends recording a significantly attractive response from females when compared to volatiles released by either the most preferred plant, P. hysterophorus (χ2 = 5.23, df = 1, P P. hysterophorus. Conclusions Our results demonstrate that (a) a specific group of plant odours attract female An. gambiae (b) females use both qualitative and quantitative differences in volatile composition to associate and discriminate between different host plants, and (c) altering concentrations of individual EAD-active components in a blend provides a practical direction for developing effective plant-based lures for malaria vector management.

Published
2012
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33. Trapping of Rift Valley Fever (RVF) vectors using Light Emitting Diode (LED) CDC traps in two arboviral disease hot spots in Kenya

Author

Tchouassi David P, Sang Rosemary, Sole Catherine L, Bastos Armanda DS, Cohnstaedt Lee W, and Torto Baldwyn

Subjects
Mosquito surveillance, Rift Valley Fever vectors, Light-emitting diodes, Light trap, Kenya, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Mosquitoes’ response to artificial lights including color has been exploited in trap designs for improved sampling of mosquito vectors. Earlier studies suggest that mosquitoes are attracted to specific wavelengths of light and thus the need to refine techniques to increase mosquito captures following the development of super-bright light-emitting diodes (LEDs) which emit narrow wavelengths of light or very specific colors. Therefore, we investigated if LEDs can be effective substitutes for incandescent lamps used in CDC light traps for mosquito surveillance, and if so, determine the best color for attraction of important Rift Valley Fever (RFV) vectors. Methods The efficiency of selected colored LED CDC light traps (red, green, blue, violet, combination of blue-green-red (BGR)) to sample RVF vectors was evaluated relative to incandescent light (as control) in a CDC light trap in two RVF hotspots (Marigat and Ijara districts) in Kenya. In field experiments, traps were baited with dry ice and captures evaluated for Aedes tricholabis, Ae. mcintoshi, Ae. ochraceus, Mansonia uniformis, Mn. africana and Culex pipiens, following Latin square design with days as replicates. Daily mosquito counts per treatment were analyzed using a generalized linear model with Negative Binomial error structure and log link using R. The incidence rate ratios (IRR) that mosquito species chose other treatments instead of the control, were estimated. Results Seasonal preference of Ae.mcintoshi and Ae. ochraceus at Ijara was evident with a bias towards BGR and blue traps respectively in one trapping period but this pattern waned during another period at same site with significantly low numbers recorded in all colored traps except blue relative to the control. Overall results showed that higher captures of all species were recorded in control traps compared to the other LED traps (IRR Conclusion Based on our trapping design and color, none of the LEDs outcompeted the standard incandescent light. The data however provides preliminary evidence that a preference might exist for some of these mosquito species based on observed differential attraction to these light colors requiring future studies to compare reflected versus transmitted light and the incorporation of colored light of varying intensities.

Published
2012
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34. Semiochemical modulation of oviposition behaviour in the gregarious desert locust Schistocerca gregaria (Extended summary)

Author

Hassanali, A., Torto, B., Njagi, P. G. N., and Assad, Y. O. H.

Subjects
DESERT locust, INSECTS
Abstract

Bioassays have shown that sand freshly contaminated by ovipositing females of the gregarious desert locust Schistocerca gregavia (Forskal) is more effective in inducing further oviposition from conspecificsthan contaminated sand stored for three or six months, which contrasts with results obtained previously with Locusta migratoria (Reiche &Farmaire). The activity of contaminated sand correlated with the levels of three unsaturated aliphatic ketones, (Z)-6-octen-2-one, (EE)-3,5octadien-2-one and its geometric isomer (EZ)-3,5- octadien-2-one present in the volatile emissions from the sand. [ABSTRACT FROM AUTHOR]

Published
1999

36. Pheromone and population genetics analyses of Clavigralla species in Africa

Author

Kpongbe, Hilaire, Van den Berg, J., Torto, B., Khamis, F., Tamò, M., and 12319724 - Van den Berg, Johann (Supervisor)

Subjects
Semiochemical cues, Isopentyl butanoate, Brown spiny bug, Parasitism, fungi, Aggregation pheromone, Kairomone, Genetic variability, Egg parasitoid, Phylogeny, Electroantennogram
Abstract

PhD (Environmental Sciences), North-West University, Potchefstroom Campus Cowpea (Vigna unguiculata (L.) Walp) and common bean (Phaseolus vulgaris (L.)) are major sources of protein for human and animal consumption. Production of these crops is hampered by insect pests, especially the complex of brown spiny bugs of the genus Clavigralla (Hemiptera: Coreidae) which causes yield loss of up to 100% in various parts of Africa. The current practice of pesticide application to control these species is not efficient and has negative impacts on human health and the environment. These species are widely distributed in Africa and has a wide range of host plants, suggesting variability in genetics and chemical profiles of this pest. Aggregation behavior is observed in Clavigralla spp. from the nymph to adult stages, indicating the involvement of semiochemicals. Olfactometer assays showed that the egg parasitoid, Gryon species (Hymenoptera: Scelionidae) could potentially be a biocontrol agent for Clavigralla spp. Gryon fulviventris Crawford (Hymenoptera: Scelionidae) was attracted to the volatiles released by C. tomentosicollis males, suggesting involvement of semiochemicals which have not been identified yet. Additionally, this attractive compound appears to be a male pheromone of which the bio-chemical composition, and its effect on the behavior of Gryon sp. have not been elucidated. The aim of this study was to investigate the diversity of the Clavigralla species complex on crops in Bénin and Kenya, to elucidate aspects regarding the pheromone responsible for aggregation behavior of Clavigralla spp., to do a population genetics analyses of the Clavigralla species group. To achieve these objectives, detailed knowledge on the levels of parasitism of Clavigralla spp., cuticular chemistry that may influence parasitoid – pest interactions, the chemical profiles, the identity and genetic variability, and semiochemical cues mediating aggregation behavior and attraction in Clavigralla species and Gryon sp. respectively are required. Both live and ethanol preserved samples of the pests as well as their eggs were collected in West Africa (Bénin) and East Africa (Kenya). Colonies were established in an insectary and egg parasitoids were recorded. Additionally, parasitism and egg cuticular chemistry were investigated. A Y-tube olfactometer was used to investigate the effect of male and female headspace volatiles of Clavigralla spp. on their conspecifics. Headspace volatiles of both sexes of C. tomentosicollis, C. shadabi and C. elongata adults were collected and analyzed. Active-components to both pest and parasitoid antennae were identified by coupled GC/electroantennographic detection (GC/EAD) and GC/MS respectively. Olfactometer assays were performed to determine the effect of male-specific compound(s) on behavior of both the pest and egg parasitoid, Gryon sp. The genetic diversity of the three Clavigralla species collected in Kenya and Bénin and their identity were established using DNA barcoding and Cytb primers and different molecular tools (MEGA 7, NJ, K2P, BLAST). The parasitism assays conducted with Gryon sp. showed a higher incidence of parasitism of C. tomentosicollis eggs than that of C. elongata. The GC/MS analysis of cuticular extracts obtained from C. tomentosicollis and C. elongata parasitized and unparasitized eggs identified 15 compounds of which the amount varied between the two species. Furthermore, the Y-tube olfactometer bioassays conducted with group of males and females of C. tomentosicollis showed that volatiles released by groups of males were strongly attractive to both sexes. Antennae of both sexes of C. tomentosicollis detected identical components, including a male-specific component (isopentyl butanoate) which was also detected by antennae of the egg parasitoid. Likewise, in olfactometer bioassays with the synthetic of this male-specific compound, both the pest and the egg parasitoid were significantly attracted. GC/MS analyses of headspace volatiles of the three Clavigralla species identified 31 components. A heat map generated from the chemistry of Clavigralla spp. volatiles showed separation of the three species with a higher concentration of the components in C. tomentosicollis volatiles compared to the other two species. A close similarity between C. tomentosicollis and C. elongata was also observed. Genetic analyses showed very low variability within the different Clavigralla species and populations. Great variability was observed between C. tomentosicollis and the other two species. These results suggest that the alkanes present in the egg cuticula as well as isopentyl butanoate could serve as semiochemicals for Gryon sp., facilitating host finding and parasitism and that isopentyl butanoate is the aggregation pheromone for both sexes of C. tomentosicollis. These compounds are, therefore, potential candidates for future use as tools in management of these pests. Results on the genetic characteristics and distribution ranges of Clavigralla spp. will contribute to development of management strategies of these pests in Africa. Future field evaluation and validation of the identified semiochemicals could lead to development of strategies to manage activities of Gryon species, and also monitoring of the pests. Doctoral

Published
2019

37. Feasibility of sand fly control based on knowledge of sensory ecology.

Author

Tchouassi DP, Milugo TK, and Torto B

Subjects
Animals, Insect Vectors physiology, Psychodidae physiology, Insect Control methods
Abstract

Phlebotomine sand flies are vectors of multiple human pathogens but are well known for enabling transmission of Leishmania parasites, which cause leishmaniasis, the visceral form constituting a serious public health disease and a second parasitic killer in the world after malaria. Sensory ecology shapes sand fly behavior, including host seeking for a blood meal, nectar foraging, oviposition, and reproduction, which directly impacts on disease transmission. As such, knowledge of sand fly sensory ecology, including olfactory and physical (visual, tactile, thermal, and acoustic) cues, is essential to enable their exploitation in the development of novel tools for sand fly surveillance and control. A previous review discussed the chemical ecology of sand flies with a focus on plant feeding (nectar foraging) behavior. Here, we contribute to the existing literature by providing an analysis of the feasibility of using knowledge gained from studies on sand fly sensory ecology for control of the vector., Competing Interests: Declaration of Competing Interest The authors declare no competing interests., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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38. Next generation sequencing improves the resolution of detecting mixed host blood meal sources in field collected arboviral mosquito vectors.

Author

Tchouassi DP, Kisero RO, Rotich G, Dunlap C, Torto B, and Muturi EJ

Subjects
Animals, Humans, Electron Transport Complex IV analysis, Electron Transport Complex IV genetics, Dogs, Female, Arboviruses physiology, RNA, Ribosomal, Mosquito Vectors physiology, Mosquito Vectors genetics, Aedes genetics, Aedes physiology, Culex physiology, Culex genetics, High-Throughput Nucleotide Sequencing, Feeding Behavior
Abstract

Accurate knowledge of blood meal hosts of different mosquito species is critical for identifying potential vectors and establishing the risk of pathogen transmission. We compared the performance of Miseq next generation sequencing approach relative to conventional Sanger sequencing approach in identification of mosquito blood meals using genetic markers targeting the 12S rRNA and cytochrome oxidase I (COI) genes. We analysed the blood meals of three mosquito vector species (Aedes aegypti, Aedes simpsoni s.l. and Culex pipiens s.l.) collected outdoors, and compared the frequency of single- versus multiple-blood feeding. Single host blood meals were mostly recovered for Sanger-based sequencing of the mitochondrial 12S rRNA gene, whereas Miseq sequencing employing this marker and the COI marker detected both single and multiple blood meal hosts in individual mosquitoes. Multiple blood meals (two or more hosts) which mostly included humans were detected in 19%-22.7% of Ae. aegypti samples. Most single host blood meals for this mosquito species were from humans (47.7%-57.1%) and dogs (9.1%-19.0%), with livestock, reptile and rodent hosts collectively accounting for 4.7%-28.9% of single host blood meals. The frequency of two or more host blood meals in Ae. simpsoni s.l. was 26.3%-45.5% mostly including humans, while single host blood meals were predominantly from humans (31.8%-47.4%) with representation of rodent, reptile and livestock blood meals (18.2%-68.2%). Single host blood meals from Cx. pipiens s.l. were mostly from humans (27.0%-39.4%) and cows (11.5%-27.36%). Multiple blood meal hosts that mostly included humans occurred in 21.2%-24.4% of Cx. pipiens s.l. samples. Estimated human blood indices ranged from 53%-76% for Ae. aegypti, 32%-82% for Ae. simpsoni s.l. and 26%-61% for Cx. pipiens s.l. and were consistently lower for Sanger-based sequencing approach compared to Miseq-based sequencing approach. These findings demonstrate that Miseq sequencing approach is superior to Sanger sequencing approach as it can reliably identify mixed host blood meals in a single mosquito, improving our ability to understand the transmission dynamics of mosquito-borne pathogens., (© 2024 Royal Entomological Society.)

Published
2024
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39. Tritrophic Interactions Mediated by Zoophytophagous Predator-Induced Host Plant Volatiles.

Author

Adams B, Yusuf AA, Torto B, and Khamis FM

Subjects
Female, Animals, Heteroptera physiology, Heteroptera chemistry, Moths physiology, Host-Parasite Interactions, Wasps physiology, Male, Pest Control, Biological, Volatile Organic Compounds metabolism, Volatile Organic Compounds chemistry, Volatile Organic Compounds pharmacology, Volatile Organic Compounds analysis, Solanum lycopersicum chemistry, Solanum lycopersicum parasitology, Solanum lycopersicum metabolism, Predatory Behavior
Abstract

The zoophytophagous mirid predator Nesidiocoris tenuis and the ectoparasitoid Stenomesius japonicus are important biological control agents for several agricultural pests including the invasive leafminer, Phthorimaea absoluta, a destructive pest of Solanaceous crops especially tomato in sub-Saharan Africa. However, little is known about how feeding by N. tenuis can influence the tritrophic interactions in the tomato plant. Here, we tested the hypothesis that N. tenuis phytophagy would influence the tritrophic olfactory interactions between the host plant tomato and pest, predator, and parasitoid. In olfactometer assays, P. absoluta females and N. tenuis adults were both attracted to constitutive volatiles released by the tomato plant. Whereas females of P. absoluta avoided volatiles released by N. tenuis-infested plants, S. japonicus females and N. tenuis adults were attracted to the induced volatiles. In coupled gas chromatography-electroantennographic detection (GC-EAD) recordings of intact and N. tenuis-infested plant volatiles, antennae of P. absoluta and S. japonicus females both detected eight components, whereas N. tenuis adults detected seven components which were identified by GC-mass spectrometry (GC-MS) as terpenes and green leaf volatiles (GLVs). Dose-response olfactometer bioassays revealed that the responses of P. absoluta, N. tenuis, and S. japonicus varied with the composition and concentration of blends and individual compounds tested from N tenuis-induced volatiles. Females of P. absoluta showed no preference for an eight-component blend formulated from the individual repellents including hexanal, (Z)-3-hexenyl butanoate, and δ-elemene identified in the volatiles. On the other hand, S. japonicus females were attracted to an eight-component blend including the attractants (E)-2-hexenal, (Z)-3-hexenol, methyl salicylate, β-phellandrene, and (E)-caryophyllene. Likewise, N. tenuis adults were attracted to a seven-component blend including the attractants β-phellandrene, δ-elemene, and (E)-caryophyllene identified in the volatiles. Our findings suggest that there is potential for the use of terpenes and GLVs to manage the insects in the tritrophic interaction., (© 2024. The Author(s).)

Published
2024
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40. An Overview of Tsetse Fly Repellents: Identification and Applications.

Author

Orubuloye OY, Mbewe NJ, Tchouassi DP, Yusuf AA, Pirk CWW, and Torto B

Subjects
Animals, Humans, Insect Vectors drug effects, Tsetse Flies, Insect Repellents pharmacology
Abstract

Tsetse flies are vectors of the parasite trypanosoma that cause the neglected tropical diseases human and animal African trypanosomosis. Semiochemicals play important roles in the biology and ecology of tsetse flies. Previous reviews have focused on olfactory-based attractants of tsetse flies. Here, we present an overview of the identification of repellents and their development into control tools for tsetse flies. Both natural and synthetic repellents have been successfully tested in laboratory and field assays against specific tsetse fly species. Thus, these repellents presented as innovative mobile tools offer opportunities for their use in integrated disease management strategies., (© 2024. The Author(s).)

Published
2024
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41. Polymer Beads Increase Field Responses to Host Attractants in the Dengue Vector Aedes aegypti.

Author

Adhiambo EF, Gouagna LC, Owino EA, Mutuku F, Getahun MN, Torto B, and Tchouassi DP

Subjects
Animals, Female, Male, Kenya, Acyclic Monoterpenes pharmacology, Ketones, Aedes drug effects, Aedes physiology, Mosquito Control, Mosquito Vectors drug effects, Mosquito Vectors physiology, Dengue transmission, Pheromones pharmacology, Polymers pharmacology, Polymers chemistry
Abstract

This study investigates the efficacy of three different olfactory cues - cyclohexanone, linalool oxide (LO), and 6-methyl-5-heptan-2-one (sulcatone) - in attracting Aedes aegypti, the primary vector of dengue, using BG sentinel traps in a dengue-endemic area (urban Ukunda) in coastal Kenya. Two experiments were conducted. Experiment 1 compared solid formulations of the compounds in polymer beads against liquid formulations with hexane as the solvent. CO 2 -baited traps served as controls. In Experiment 2, traps were baited with each compound in the polymer beads, commercial BG-Lure, and CO 2 . Our results indicate that CO 2 -baited traps recorded the greatest Ae. aegypti captures in both Experiment 1 and 2, whereas trap captures with polymer beads and solvent-based treatments were comparable. In experiment 2, polymer bead-based treatments yielded significantly greater female captures, each recording ~ 2-fold more captures than traps baited with the BG-Lure. There was no significant difference, however, between the treatments. Female Ae. aegypti captured in CO 2 -baited traps were mainly unfed (91%), with fewer gravid mosquitoes (6.4%) compared to traps with test compounds (range; 12.7-21.1%). Male captures were lower in LO and BG-Lure baited traps compared to other treatments. Gravimetric analysis showed LO had a slower release rate compared to other compounds. The findings suggest that host-associated compounds loaded on polymer beads are more effective in trapping Ae. aegypti than commercial BG-Lure and reveal sex-specific differences in mosquito responses. These results have implications for mosquito surveillance and control programs, highlighting the potential for selective trapping strategies., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2024
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42. Feeding habits and malaria parasite infection of Anopheles mosquitoes in selected agroecological areas of Northwestern Ethiopia.

Author

Belay AK, Asale A, Sole CL, Yusuf AA, Torto B, Mutero CM, and Tchouassi DP

Subjects
Animals, Ethiopia epidemiology, Humans, Cattle, Female, Plasmodium isolation & purification, Plasmodium physiology, Anopheles parasitology, Anopheles physiology, Anopheles classification, Feeding Behavior, Mosquito Vectors parasitology, Mosquito Vectors physiology, Malaria transmission, Malaria epidemiology
Abstract

Background: Surveillance of the host-anopheline mosquitoes' interaction is important for assessing malaria transmission risk and guiding vector control. We assume that changes in malaria vector species' feeding habits, as well as the surrounding environment, have a substantial impact on varied malaria transmission. In this study, we determined the vertebrate host feeding patterns of anopheline mosquitoes to characterize entomologic risk factors for malaria in Jabi Tehnan, Northwestern Ethiopia., Methods: Blood-fed anophelines surveyed during malaria surveillance in Jabi Tehnan district of northwestern Ethiopia were utilized in this study. They were collected using Centers for Disease Control and Prevention (CDC) light traps deployed in selected households per village, placed indoors and outdoors, spanning three agroecological settings (dry mountain, plateau, and semiarid highlands) between June 2020 and May 2021. The engorged mosquitoes were analyzed for host blood meal sources and Plasmodium infection via polymerase chain reaction (PCR) and/or sequencing. Infection rates and bovine and human blood indices were calculated and compared for abundant species; between indoors and outdoors and between agroecology using a chi-squared test for equality of proportion in R package at a significant level of p ≤ 0.05., Results: A total of 246 mosquitoes were successfully typed (indoor, 121; outdoor, 125), with greater relative abundance indoors in mountain and plateau highlands, and outdoors in semiarid areas. Despite ecological differences in blood-fed capture rates, cattle served as the most utilized blood meal source by 11 anopheline species with an overall bovine blood index (BBI) of 74.4%. This trend was dictated by Anopheles gambiae s.l. (198/246; BBI = 73.7%), which exhibited the most plastic feeding habits that included humans (human blood index = 15.7%) and other livestock and rodents. A total of five anopheline species (An. gambiae s.l., An. funestus s.l., An. coustani s.l., An. pretoriensis, and An. pharoensis) fed on humans, of which the first three were found infected with Plasmodium parasites. Most of the infected specimens were An. arabiensis (5.6%, 11/198) and had recently fed mainly on cattle (72.7%, 8/11); one each of infected An. funestus s.l. and An. coustani s.l. had fed on humans and cattle, respectively., Conclusions: The results demonstrate communal feeding on cattle by anophelines including primary and secondary malaria vectors. This study also indicates the importance of cattle-targeted interventions for sustainable control of malaria vectors in the study areas., (© 2024. The Author(s).)

Published
2024
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43. Insights into malaria vectors-plant interaction in a dryland ecosystem.

Author

Kinya F, Milugo TK, Mutero CM, Wondji CS, Torto B, and Tchouassi DP

Subjects
Animals, Kenya, Malaria transmission, Malaria parasitology, Acacia metabolism, Acacia parasitology, Acacia genetics, Feeding Behavior physiology, Ribulose-Bisphosphate Carboxylase metabolism, Ribulose-Bisphosphate Carboxylase genetics, Mosquito Vectors parasitology, Mosquito Vectors genetics, Ecosystem, Anopheles parasitology, Anopheles genetics, Anopheles metabolism, Plasmodium falciparum genetics, Plasmodium falciparum metabolism, DNA Barcoding, Taxonomic
Abstract

Improved understanding of mosquito-plant feeding interactions can reveal insights into the ecological dynamics of pathogen transmission. In wild malaria vectors Anopheles gambiae s.l. and An. funestus group surveyed in selected dryland ecosystems of Kenya, we found a low level of plant feeding (2.8%) using biochemical cold anthrone test but uncovered 14-fold (41%) higher rate via DNA barcoding targeting the chloroplast rbcL gene. Plasmodium falciparum positivity was associated with either reduced or increased total sugar levels and varied by mosquito species. Gut analysis revealed the mosquitoes to frequently feed on acacia plants (~ 89%) (mainly Vachellia tortilis) in the family Fabaceae. Chemical analysis revealed 1-octen-3-ol (29.9%) as the dominant mosquito attractant, and the sugars glucose, sucrose, fructose, talose and inositol enriched in the vegetative parts, of acacia plants. Nutritional analysis of An. longipalpis C with high plant feeding rates detected fewer sugars (glucose, talose, fructose) compared to acacia plants. These results demonstrate (i) the sensitivity of DNA barcoding to detect plant feeding in malaria vectors, (ii) Plasmodium infection status affects energetic reserves of wild anopheline vectors and (iii) nutrient content and olfactory cues likely represent potent correlates of acacia preferred as a host plant by diverse malaria vectors. The results have relevance in the development of odor-bait control strategies including attractive targeted sugar-baits., (© 2024. The Author(s).)

Published
2024
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44. Vectorial drivers of malaria transmission in Jabi Tehnan district, Amhara Regional State, Ethiopia.

Author

Belay AK, Asale A, Sole CL, Kinya F, Yusuf AA, Torto B, Mutero CM, and Tchouassi DP

Subjects
Ethiopia epidemiology, Animals, Humans, Malaria transmission, Malaria epidemiology, Plasmodium falciparum isolation & purification, Plasmodium falciparum pathogenicity, Plasmodium vivax physiology, Sporozoites, Mosquito Control methods, Malaria, Vivax transmission, Malaria, Vivax epidemiology, Malaria, Vivax parasitology, Malaria, Falciparum transmission, Malaria, Falciparum epidemiology, Malaria, Falciparum parasitology, Female, Anopheles parasitology, Mosquito Vectors parasitology
Abstract

Among the factors affecting the effectiveness of malaria control is poor knowledge of the entomologic drivers of the disease. We investigated anopheline populations as part of a baseline study to implement house screening of windows and doors as a supplementary malaria control tool towards elimination in Jabi Tehnan district, Amhara Regional State of Ethiopia. The samples were surveyed monthly using CDC light traps between June 2020 and May 2021. Mosquito trap density (< 3 mosquitoes/trap) was low, however, with a high overall Plasmodium sporozoite rate (9%; indoor = 4.3%, outdoor = 13.1%) comprising P. falciparum (88.9%) and P. vivax (11.1%). Anopheles gambiae s.l., mostly An. arabiensis, comprised > 80% of total anopheline captures and contributed ~ 42% of Plasmodium-infected mosquitoes. On the other hand, morphologically scored Anopheles funestus s.l., constituting about 6% of anopheline collections, accounted for 50% of sporozoite-infected mosquitoes. Most of the infected An. funestus s.l. specimens (86.7%) were grouped with previously unknown or undescribed Anopheles species previously implicated as a cryptic malaria vector in the western Kenyan highlands, confirming its wider geographic distribution in eastern Africa. Other species with Plasmodium infection included An. longipalpis C, An. theileri, An. demillioni, and An. nili. Cumulatively, 77.8% of the infected mosquitoes occurred outdoors. These results suggest efficient malaria parasite transmission despite the low vector densities, which has implications for effective endpoint indicators to monitor malaria control progress. Additionally, the largely outdoor infection and discovery of previously unknown and cryptic vectors suggest an increased risk of residual malaria transmission and, thus, a constraint on effective malaria prevention and control., (© 2024. The Author(s).)

Published
2024
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45. Zoophytophagous predator sex pheromone and visual cues of opposing reflectance spectra lure predator and invasive prey.

Author

Adams B, Mbarak Khamis F, Ahmed Yusuf A, and Torto B

Abstract

Introduction: In sub-Saharan Africa, the invasive South American leafminer Phthorimaea absoluta is the most damaging tomato pest. Females of the pest can reproduce both sexually and through parthenogenesis and lay their eggs on all tomato plant parts. The mirid predator Nesidiocoris tenuis, a biological control agent for the pest, is also a tomato pest when prey population is low. To date, however, no study has developed an eco-friendly solution that targets both the predator and its host in a tomato farming system., Objective: To develop a bio-based management system for both pest and predator based on the combined use of sexual communication in the predator and visual cues., Methods: We collected volatiles from both sexes of the Kenyan population of the predator N. tenuis and identified candidate sex pheromone components by coupled gas chromatography-mass spectrometry (GC-MS). We used electrophysiological assays to identify antennally-active odorants in the volatiles, followed by field trials with different pheromone-baited colored traps to validate the responses of both predator and prey. Thereafter, we compared the reflectance spectra of the colored traps with those of different tomato plant tissues., Results: Our results reveal an interplay between different sensory cues which in the predator-prey interaction may favor the predator. Antennae of both sexes of predator and prey detect the predator sex pheromone identified as 1-octanol and hexyl hexanoate. Unexpectedly, our field experiments led to the discovery of a lure for P. absoluta females, which were lured distinctly into a pheromone-baited trap whose reflectance spectrum mimicked that of ripe tomato fruit (long wavelength), an egg-laying site for females. Contrastingly, N. tenuis males were lured into baited white trap (short wavelength) when the predator is actively searching for prey., Conclusion: Our results demonstrate the novel use of a predator sex pheromone and different visual cues to assess complex trophic interactions on tomatoes., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Production and hosting by Elsevier B.V.)

Published
2024
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46. Pheromonal variation and mating between two mitotypes of fall armyworm (Spodoptera frugiperda) in Africa.

Author

Sisay B, Tamiru A, Subramanian S, Weldon CW, Khamis F, Green KK, Anderson P, and Torto B

Subjects
Animals, Female, Spodoptera genetics, Pheromones, Kenya, Sex Attractants chemistry, Moths genetics, Moths chemistry
Abstract

In the Americas, the fall armyworm (Spodoptera frugiperda) exists in two genetically distinct strains, the corn (C) and rice (R) strains. Despite their names, these strains are not associated with host plant preferences but have been shown to vary in pheromone composition and male responses. Recently, S. frugiperda was detected in Africa as an invasive species, but knowledge about variation in strain types, pheromone composition and inter-strain mating of populations of the pest in the continent has not been fully examined. Therefore, this study aimed to investigate variations, if any in the pheromone composition of female moths, male moth responses, and mating between C and R mitotypes of S. frugiperda populations in Kenya, as well as their geographic distribution. Strains (mitotypes) of S. frugiperda were identified using mitochondrial DNA (mtDNA) markers, and their pheromonal composition determined by coupled gas chromatography-mass spectrometric (GC-MS) analysis. Male moth responses to these compounds were evaluated using GC-electroantennographic detection (EAD), electroantennogram (EAG), and wind tunnel assays. Oviposition assays were used to determine whether R and C mitotype moths could mate and produce eggs. The results showed that both the R and C mitotypes were present, and there were no statistically significant differences in their distribution across all sampled locations. Five pheromone compounds including (Z)-7-dodecenyl acetate (Z7-12:OAc), (Z)-7-tetradecenyl acetate (Z7-14:OAc), (Z)-9-tetradecenyl acetate (Z9-14:OAc), (Z)-11-tetradecenyl acetate (Z11-14:OAc) and (Z)-11-hexadecenyl acetate (Z11-16:OAc), were detected in the pheromone glands of female moths of both mitotypes, with Z9-14:OAc being the most abundant. The relative percentage composition of Z9-14:OAc was similar in both mitotypes. However, the R mitotype had a 2.7 times higher relative percentage composition of Z7-12:OAc compared to the C mitotype moth, while the C mitotype moth had a 2.4 times higher relative percentage composition of Z11-16:OAc than the R mitotype moth. Male moths of both mitotypes exhibited similar responses to the pheromone compounds, showing the strongest responses to Z9-14:OAc and Z7-12:OAc in electrophysiological and behavioural assays. There was mating between R and C mitotypes with egg production comparable to mating within the same mitotype. Our results revealed that differences between the two S. frugiperda mitotypes are characterized by female moth pheromone composition rather than male moth responses to the pheromones, and that this does not prevent hybridisation between the mitotypes, which may have implications for their management., (© 2024. The Author(s).)

Published
2024
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47. Chemical Ecology and Management of Dengue Vectors.

Author

Torto B and Tchouassi DP

Subjects
Humans, Animals, Ecology, Pheromones, Dengue, Aedes
Abstract

Dengue, caused by the dengue virus, is the most widespread arboviral infectious disease of public health significance globally. This review explores the communicative function of olfactory cues that mediate host-seeking, egg-laying, plant-feeding, and mating behaviors in Aedes aegypti and Aedes albopictus , two mosquito vectors that drive dengue virus transmission. Aedes aegypti has adapted to live in close association with humans, preferentially feeding on them and laying eggs in human-fabricated water containers and natural habitats. In contrast, Ae. albopictus is considered opportunistic in its feeding habits and tends to inhabit more vegetative areas. Additionally, the ability of both mosquito species to locate suitable host plants for sugars and find mates for reproduction contributes to their survival. Advances in chemical ecology, functional genomics, and behavioral analyses have improved our understanding of the underlying neural mechanisms and reveal novel and specific olfactory semiochemicals that these species use to locate and discriminate among resources in their environment. Physiological status; learning; and host- and habitat-associated factors, including microbial infection and abundance, shape olfactory responses of these vectors. Some of these semiochemicals can be integrated into the toolbox for dengue surveillance and control.

Published
2024
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48. Viral diversity and blood-feeding patterns of Afrotropical Culicoides biting midges (Diptera: Ceratopogonidae).

Author

Ogola EO, Bastos ADS, Slothouwer I, Getugi C, Osalla J, Omoga DCA, Ondifu DO, Sang R, Torto B, Junglen S, and Tchouassi DP

Abstract

Introduction: Culicoides biting midges (Diptera: Ceratopogonidae) are vectors of arboviral pathogens that primarily affect livestock represented by Schmallenberg virus (SBV), epizootic hemorrhagic disease virus (EHDV) and bluetongue virus (BTV). In Kenya, studies examining the bionomic features of Culicoides including species diversity, blood-feeding habits, and association with viruses are limited., Methods: Adult Culicoides were surveyed using CDC light traps in two semi-arid ecologies, Baringo and Kajiado counties, in Kenya. Blood-fed specimens were analysed through polymerase chain reaction (PCR) and sequencing of cytochrome oxidase subunit 1 ( cox1 ) barcoding region. Culicoides pools were screened for virus infection by generic RT-PCR and next-generation sequencing (NGS)., Results: Analysis of blood-fed specimens confirmed that midges had fed on cattle, goats, sheep, zebra, and birds. Cox1 barcoding of the sampled specimens revealed the presence of known vectors of BTV and epizootic hemorrhagic disease virus (EHDV) including species in the Imicola group ( Culicoides imicola ) and Schultzei group ( C. enderleni , C. kingi , and C. chultzei ). Culicoides leucostictus and a cryptic species distantly related to the Imicola group were also identified. Screening of generated pools (11,006 individuals assigned to 333 pools) by generic RT-PCR revealed presence of seven phylogenetically distinct viruses grouping in the genera Goukovirus , Pacuvirus and Orthobunyavirus . The viruses showed an overall minimum infection rate (MIR) of 7.0% (66/333, 95% confidence interval (CI) 5.5-8.9). In addition, full coding sequences of two new iflaviruses, tentatively named Oloisinyai&#95;1 and Oloisinyai&#95;2, were generated by next-generation sequencing (NGS) from individual homogenate of Culicoides pool., Conclusion: The results indicate a high genetic diversity of viruses in Kenyan biting midges. Further insights into host-vector-virus interactions as well as investigations on the potential clinical significance of the detected viruses are warranted., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Ogola, Bastos, Slothouwer, Getugi, Osalla, Omoga, Ondifu, Sang, Torto, Junglen and Tchouassi.)

Published
2024
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49. Transmission Dynamics of Crimean-Congo Haemorrhagic Fever Virus (CCHFV): Evidence of Circulation in Humans, Livestock, and Rodents in Diverse Ecologies in Kenya.

Author

Omoga DCA, Tchouassi DP, Venter M, Ogola EO, Osalla J, Kopp A, Slothouwer I, Torto B, Junglen S, and Sang R

Subjects
Humans, Animals, Cattle, Sheep, Kenya epidemiology, Livestock, Ecosystem, Phylogeny, Fever, Goats, Immunoglobulin M, Nucleotides, Hemorrhagic Fever Virus, Crimean-Congo genetics, Hemorrhagic Fever, Crimean epidemiology, Hemorrhagic Fever, Crimean veterinary
Abstract

Crimean-Congo haemorrhagic fever virus (CCHFV) is the causative agent of CCHF, a fatal viral haemorrhagic fever disease in humans. The maintenance of CCHFV in the ecosystem remains poorly understood. Certain tick species are considered as vectors and reservoirs of the virus. Diverse animals are suspected as amplifiers, with only scarce knowledge regarding rodents in virus epidemiology. In this study, serum samples from febrile patients, asymptomatic livestock (cattle, donkeys, sheep, and goats), and peridomestic rodents from Baringo (Marigat) and Kajiado (Nguruman) counties within the Kenyan Rift Valley were screened for acute CCHFV infection by RT-PCR and for CCHFV exposure by ELISA. RT-PCR was performed on all livestock samples in pools (5-7/pool by species and site) and in humans and rodents individually. CCHFV seropositivity was significantly higher in livestock (11.9%, 113/951) compared to rodents (6.5%, 6/93) and humans (5.9%, 29/493) ( p = 0.001). Among the livestock, seropositivity was the highest in donkeys (31.4%, 16/51), followed by cattle (14.1%, 44/310), sheep (9.8%, 29/295) and goats (8.1%, 24/295). The presence of IgM antibodies against CCHFV was found in febrile patients suggesting acute or recent infection. CCHFV RNA was detected in four pooled sera samples from sheep (1.4%, 4/280) and four rodent tissues (0.83%, 4/480) showing up to 99% pairwise nucleotide identities among each other. Phylogenetic analyses of partial S segment sequences generated from these samples revealed a close relationship of 96-98% nucleotide identity to strains in the CCHFV Africa 3 lineage. The findings of this study suggest active unnoticed circulation of CCHFV in the study area and the involvement of livestock, rodents, and humans in the circulation of CCHFV in Kenya. The detection of CCHF viral RNA and antibodies against CCHFV in rodents suggests that they may participate in the viral transmission cycle.

Published
2023
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50. Analyses of Mosquito Species Composition, Blood-Feeding Habits and Infection with Insect-Specific Flaviviruses in Two Arid, Pastoralist-Dominated Counties in Kenya.

Author

Ogola EO, Bastos ADS, Rotich G, Kopp A, Slothouwer I, Omoga DCA, Sang R, Torto B, Junglen S, and Tchouassi DP

Abstract

Insect-specific flaviviruses (ISFs), although not known to be pathogenic to humans and animals, can modulate the transmission of arboviruses by mosquitoes. In this study, we screened 6665 host-seeking, gravid and blood-fed mosquitoes for infection with flaviviruses and assessed the vertebrate hosts of the blood-fed mosquitoes sampled in Baringo and Kajiado counties; both dryland ecosystem counties in the Kenyan Rift Valley. Sequence fragments of two ISFs were detected. Cuacua virus (CuCuV) was found in three blood-fed Mansonia ( Ma. ) africana . The genome was sequenced by next-generation sequencing (NGS), confirming 95.8% nucleotide sequence identity to CuCuV detected in Mansonia sp. in Mozambique. Sequence fragments of a potential novel ISF showing nucleotide identity of 72% to Aedes flavivirus virus were detected in individual blood-fed Aedes aegypti , Anopheles gambiae s.l., Ma. africana and Culex ( Cx. ) univittatus , all having fed on human blood. Blood-meal analysis revealed that the collected mosquitoes fed on diverse hosts, primarily humans and livestock, with a minor representation of wild mammals, amphibians and birds. The potential impact of the detected ISFs on arbovirus transmission requires further research.

Published
2023
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