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5. Global consortium for the classification of fungi and fungus-like taxa

Author

Hyde, K. D., Abdel-Wahab, M. A., Abdollahzadeh, J., Abeywickrama, P. D., Absalan, S., Afshari, N., Ainsworth, A. M., Akulov, O. Y., Aleoshin, V. V., Al-Sadi, A. M., Alvarado, P., Alves, A., Alves-Silva, G., Amalfi, M., Amira, Y., Amuhenage, T. B., Anderson, J. L., Antonín, V., Aouali, S., Aptroot, A., Apurillo, C. C. S., Araújo, J. P.M., Ariyawansa, H. A., Armand, A., Arumugam, E., Asghari, R., Assis, D. M.A., Atienza, V., Avasthi, S., Azevedo, E., Bahkali, A. H., Bakhshi, M., Banihashemi, Z., Bao, D. F., Baral, H. O., Barata, M., Barbosa, F. R., Barbosa, R. N., Barreto, R. W., Baschien, C., Belamesiatseva, D. B., Reuel, M. Bennett, Bera, I., Bezerra, J. D. P., Bezerra, J. L., Bhat, D. J., Bhunjun, C. S., Bianchinotti, M. V., Błaszkowski, J., Blondelle, A., Boekhout, T., Bonito, G., Boonmee, S., Boonyuen, N., Bregant, C., Buchanan, P., Bundhun, D., Burgaud, G., Burgess, T., Buyck, B., Cabarroi-Hernández, M., Cáceres, M. E. S., Caeiro, M. F., Cai, L., Cai, M. F., Calabon, M. S., Calaça, F. J. S., Callalli, M., Camara, M. P. S., Cano-Lira, J. F., Cantillo, T., Cao, B., Carlavilla, J. R., Carvalho, A., Castañeda-Ruiz, R. F., Castlebury, L., Castro-Jauregui, O., Catania, M. D., Cavalcanti, L. H., Cazabonne, J., Cedeño-Sanchez, M. L., Chaharmiri-Dokhaharani, S., Chaiwan, N., Chakraborty, N., Chaverri, P., Cheewangkoon, R., Chen, C., Chen, C. Y., Chen, K. H., Chen, J., Chen, Q., Chen, W. H., Chen, Y. P., Chethana, K. W. T., Coleine, C., Condé, T. O., Corazon-Guivin, M. A., Cortés-Pérez, A., Costa-Rezende, D. H., Courtecuisse, R., Crouch, J. A., Crous, P. W., Cui, B. K., Cui, Y. Y., da Silva, D. K. A., da Silva, G. A., da Silva, I. R., da Silva, R. M. F., da Silva Santos, A. C., Dai, D. Q., Dai, Y. C., Damm, U., Darmostuk, V., Zoha, Daroodi, Das, K., Davoodian, N., Davydov, E. A., Dayarathne, M. C., Decock, C., de Groot, M. D., De Kesel, A., de la Cruz, T. E. E., De Lange, R., Delgado, G., Denchev, C. M., Denchev, T. T., de Oliveira, N. T., de Silva, N. I., de Souza, F. A., Dentinger, B., Devadatha, B., Dianese, J. C., Dima, B., Diniz, A. G., Dissanayake, A. J., Dissanayake, L. S., Doğan, H. H., Doilom, M., Dolatabadi, S., Dong, W., Dong, Z. Y., Dos Santos, L. A., Drechsler-Santos, E. R., Du, T. Y., Dubey, M. K., Dutta, A. K., Egidi, E., Elliott, T. F., Elshahed, M. S., Erdoğdu, M., Ertz, D., Etayo, J., Evans, H. C., Fan, X. L., Fan, Y. G., Fedosova, A. G., Fell, J., Fernandes, I., Firmino, A. L., Fiuza, P. O., Flakus, A., de Souza, C. A.Fragoso, Frisvad, J. C., Fryar, S. C., Gabaldón, T., Gajanayake, A. J., Galindo, L. J., Gannibal, P. B., García, D., García-Sandoval, S. R., Garrido-Benavent, I., Garzoli, L., Gautam, A. K., Ge, Z. W., Gené, D. J., Gentekaki, E., Ghobad-Nejhad, M., Giachini, A. J., Gibertoni, T. B., Góes-Neto, A., Gomdola, D., de Farias, A. R. Gomes, Gorjón, S. P., Goto, B. T., Granados-Montero, M. M., Griffith, G. W., Groenewald, J. Z., Groenewald, M., Grossart, H. P., Gueidan, C., Gunarathne, A., Gunaseelan, S., Gusmão, L. F.P., Gutierrez, A. C., Guzmán-Dávalos, L., Haelewaters, D., Halling, R., Han, Y. F., Hapuarachchi, K. K., Harder, C. B., Harrington, T. C., Hattori, T., He, M. Q., He, S., He, S. H., Healy, R., Herández-Restrepo, M., Heredia, G., Hodge, K. T., Holgado-Rojas, M., Hongsanan, S., Horak, E., Hosoya, T., Houbraken, J., Huang, S. K., Huanraluek, N., Hur, J. S., Hurdeal, V. G., Hustad, V. P., Iotti, M., Iturriaga, T., Jafar, E., Janik, P., Jany, J. L., Jayalal, R. G.U., Jayasiri, S. C., Jayawardena, R. S., Jeewon, R., Jerônimo, G. H., Jesus, A. L., Jin, J., Johnston, P. R., Jones, E. B.G., Joshi, Y., Justo, A., Kaishian, P., Kakishima, M., Kaliyaperumal, M., Kang, G. P., Kang, J. C., Karakehian, J. M., Karimi, O., Karpov, S. A., Karunarathna, S. C., Kaufmann, M., Kemler, M., Kezo, K., Khyaju, S., Kirchmair, M., Kirk, P. M., Kitaura, M. J., Klawonn, I., Kolarik, M., Kong, A., Kuhar, F., Kukwa, M., Kumar, S., Kušan, I., Lado, C., Larsson, K. H., Latha, K. P.D., Lee, H. B., Leonardi, M., Leontyev, D. L., Lestari, A. S., Li, C. J.Y., Li, D. W., Li, H. Y., Li, L., Li, Q. R., Li, W. L., Li, Y., Li, Y. C., Liao, C. F., Liimatainen, K., Lim, Y. W., Lin, C. G., Linaldeddu, B. T., Linde, C. C., Linn, M. M., Liu, F., Liu, J. K., Liu, N. G., Liu, S., Liu, X. F., Liu, X. Z., Liu, Z. B., Lu, L., Lu, Y. Z., Luangharn, T., Luangsa-ard, J. J., Lumbsch, H. T., Lumyong, S., Luo, L., Luo, M., Luo, Z. L., Ma, J., Machado, A. R., Madagammana, A. D., Madrid, H., Magurno, F., Magyar, D., Mahadevan, N., Maharachchikumbura, S. S.N., Maimaiti, Y., Malosso, E., Manamgoda, D. S., Manawasinghe, I. S., Mapook, A., Marasinghe, D. S., Mardones, M., Marin-Felix, Y., Márquez, R., Masigol, H., Matočec, N., May, T. W., McKenzie, E. H.C., Meiras-Ottoni, A., Melo, R. F.R., Mendes-Alvarenga, R. L., Mendieta, S., Meng, Q. F., Menkis, A., Menolli, N., Mešić, A., Calvo, J. G.Meza, Mikhailov, K. V., Miller, S. L., Moncada, B., Moncalvo, J. M., Monteiro, J. S., Monteiro, M., Mora-Montes, H. M., Moreau, P. A., Mueller, G. M., Mukhopadyay, S., Murugadoss, R., Nagy, L. G., Najafiniya, M., Nanayakkara, C. M., Nascimento, C. C., Nei, Y., Neves, M. A., Neuhauser, S., Niego, A. G.T., Nilsson, R. H., Niskanen, T., Niveiro, N., Noorabadi, M. T., Noordeloos, M. E., Norphanphoun, C., Otaño, N. B.Nuñez, O’Donnell, R. P., Oehl, F., Olariaga, I., Orlando, O. P., Pang, K. L., Papp, V., Pawłowska, J., Peintner, U., Pem, D., Pereira, O. L., Perera, R. H., Perez-Moreno, J., Perez-Ortega, S., Péter, G., Phillips, A. J.L., Phonemany, M., Phukhamsakda, C., Phutthacharoen, K., Piepenbring, M., Pires-Zottarelli, C. L.A., Poinar, G., Pošta, A., Prieto, M., Promputtha, I., Quandt, C. A., Radek, R., Rahnama, K., Raj, K. N.A., Rajeshkumar, K. C., Rämä, T., Rambold, G., Ramírez-Cruz, V., Rasconi, S., Rathnayaka, A. R., Raza, M., Ren, G. C., Robledo, G. L., Rodriguez-Flakus, P., Ronikier, A., Rossi, W., Ryberg, M., Ryvarden, L. R., Salvador-Montoya, C. A., Samant, B., Samarakoon, B. C., Samarakoon, M. C., Sánchez-Castro, I., Sánchez-García, M., Sandoval-Denis, M., Santamaria, B., Santiago, A. L.C.M.A., Sarma, V. V., Savchenko, A., Savchenko, K., Saxena, R. K., Scholler, M., Schoutteten, N., Seifollahi, E., Selbmann, L., Selcuk, F., Senanayake, I. C., Shabashova, T. G., Shen, H. W., Shen, Y. M., Silva-Filho, A. G.S., Simmons, D. R., Singh, R., Sir, E. B., Song, C. G., Souza-Motta, C. M., Sruthi, O. P., Stadler, M., Stchigel, A. M., Stemler, J., Stephenson, S. L., Strassert, J. F.H., Su, H. L., Su, L., Suetrong, S., Sulistyo, B., Sun, Y. R., Svantesson, S., Sysouphanthong, P., Takamatsu, S., Tan, T. H., Tanaka, K., Tang, A. M.C., Tang, X., Tanney, J. B., Tavakol, N. M., Taylor, J. E., Taylor, P. W.J., Tedersoo, L., Tennakoon, D. S., Thamodini, G. K., Thines, M., Thiyagaraja, V., Thongklang, N., Tiago, P. V., Tian, Q., Tian, W. H., Tibell, L., Tibell, S., Tibpromma, S., Tkalčec, Z., Tomšovský, M., Toome-Heller, M., Torruella, G., Tsurykau, A., Udayanga, D., Ulukapi, M., Untereiner, W. A., Uzunov, B. A., Valle, L. G., Van Caenegem, W., Van den Wyngaert, S., Van Vooren, N., Velez, P., Verma, R. K., Vieira, L. C., Vieira, W. A.S., Vizzini, A., Walker, A., Walker, A. K., Wanasinghe, D. N., Wang, C. G., Wang, K., Wang, S. X., Wang, X. Y., Wang, Y., Wannasawang, N., Wartchow, F., Wei, D. P., Wei, X. L., White, J. F., Wijayawardene, N. N., Wijesinghe, S. N., Wijesundara, D. S.A., Wisitrassameewong, K., Worthy, F. R., Wu, F., Wu, G., Wu, H. X., Wu, N., Wu, W. P., Wurzbacher, C., Xiao, Y. P., Xiong, Y. R., Xu, B., Xu, L. J., Xu, R., Xu, T. M., Yakovchenko, L., Yan, J. Y., Yang, H. D., Yang, J., Yang, Z. L., Yang, Y. H., Yapa, N., Yasanthika, E., Youssef, N. H., Yu, F. M., Yu, Q., Yu, X. D., Yu, Y. X., Yu, Z. F., Yuan, H. S., Yuan, Y., Yurkov, A., Zafari, D., Zamora, J. C., Zare, R., Zeng, M., Zeng, N. K., Zeng, X. Y., Zhang, F., Zhang, H., Zhang, J. F., Zhang, J. Y., Zhang, Q. Y., Zhang, S. N., Zhang, W., Zhang, Y., Zhao, C. L., Zhao, H., Zhao, Q., Zhao, R. L., Zhou, L. W., Zhou, M., Zhurbenko, M. P., Zin, H. H., Zucconi, L., Hyde, K. D., Abdel-Wahab, M. A., Abdollahzadeh, J., Abeywickrama, P. D., Absalan, S., Afshari, N., Ainsworth, A. M., Akulov, O. Y., Aleoshin, V. V., Al-Sadi, A. M., Alvarado, P., Alves, A., Alves-Silva, G., Amalfi, M., Amira, Y., Amuhenage, T. B., Anderson, J. L., Antonín, V., Aouali, S., Aptroot, A., Apurillo, C. C. S., Araújo, J. P.M., Ariyawansa, H. A., Armand, A., Arumugam, E., Asghari, R., Assis, D. M.A., Atienza, V., Avasthi, S., Azevedo, E., Bahkali, A. H., Bakhshi, M., Banihashemi, Z., Bao, D. F., Baral, H. O., Barata, M., Barbosa, F. R., Barbosa, R. N., Barreto, R. W., Baschien, C., Belamesiatseva, D. B., Reuel, M. Bennett, Bera, I., Bezerra, J. D. P., Bezerra, J. L., Bhat, D. J., Bhunjun, C. S., Bianchinotti, M. V., Błaszkowski, J., Blondelle, A., Boekhout, T., Bonito, G., Boonmee, S., Boonyuen, N., Bregant, C., Buchanan, P., Bundhun, D., Burgaud, G., Burgess, T., Buyck, B., Cabarroi-Hernández, M., Cáceres, M. E. S., Caeiro, M. F., Cai, L., Cai, M. F., Calabon, M. S., Calaça, F. J. S., Callalli, M., Camara, M. P. S., Cano-Lira, J. F., Cantillo, T., Cao, B., Carlavilla, J. R., Carvalho, A., Castañeda-Ruiz, R. F., Castlebury, L., Castro-Jauregui, O., Catania, M. D., Cavalcanti, L. H., Cazabonne, J., Cedeño-Sanchez, M. L., Chaharmiri-Dokhaharani, S., Chaiwan, N., Chakraborty, N., Chaverri, P., Cheewangkoon, R., Chen, C., Chen, C. Y., Chen, K. H., Chen, J., Chen, Q., Chen, W. H., Chen, Y. P., Chethana, K. W. T., Coleine, C., Condé, T. O., Corazon-Guivin, M. A., Cortés-Pérez, A., Costa-Rezende, D. H., Courtecuisse, R., Crouch, J. A., Crous, P. W., Cui, B. K., Cui, Y. Y., da Silva, D. K. A., da Silva, G. A., da Silva, I. R., da Silva, R. M. F., da Silva Santos, A. C., Dai, D. Q., Dai, Y. C., Damm, U., Darmostuk, V., Zoha, Daroodi, Das, K., Davoodian, N., Davydov, E. A., Dayarathne, M. C., Decock, C., de Groot, M. D., De Kesel, A., de la Cruz, T. E. E., De Lange, R., Delgado, G., Denchev, C. M., Denchev, T. T., de Oliveira, N. T., de Silva, N. I., de Souza, F. A., Dentinger, B., Devadatha, B., Dianese, J. C., Dima, B., Diniz, A. G., Dissanayake, A. J., Dissanayake, L. S., Doğan, H. H., Doilom, M., Dolatabadi, S., Dong, W., Dong, Z. Y., Dos Santos, L. A., Drechsler-Santos, E. R., Du, T. Y., Dubey, M. K., Dutta, A. K., Egidi, E., Elliott, T. F., Elshahed, M. S., Erdoğdu, M., Ertz, D., Etayo, J., Evans, H. C., Fan, X. L., Fan, Y. G., Fedosova, A. G., Fell, J., Fernandes, I., Firmino, A. L., Fiuza, P. O., Flakus, A., de Souza, C. A.Fragoso, Frisvad, J. C., Fryar, S. C., Gabaldón, T., Gajanayake, A. J., Galindo, L. J., Gannibal, P. B., García, D., García-Sandoval, S. R., Garrido-Benavent, I., Garzoli, L., Gautam, A. K., Ge, Z. W., Gené, D. J., Gentekaki, E., Ghobad-Nejhad, M., Giachini, A. J., Gibertoni, T. B., Góes-Neto, A., Gomdola, D., de Farias, A. R. Gomes, Gorjón, S. P., Goto, B. T., Granados-Montero, M. M., Griffith, G. W., Groenewald, J. Z., Groenewald, M., Grossart, H. P., Gueidan, C., Gunarathne, A., Gunaseelan, S., Gusmão, L. F.P., Gutierrez, A. C., Guzmán-Dávalos, L., Haelewaters, D., Halling, R., Han, Y. F., Hapuarachchi, K. K., Harder, C. B., Harrington, T. C., Hattori, T., He, M. Q., He, S., He, S. H., Healy, R., Herández-Restrepo, M., Heredia, G., Hodge, K. T., Holgado-Rojas, M., Hongsanan, S., Horak, E., Hosoya, T., Houbraken, J., Huang, S. K., Huanraluek, N., Hur, J. S., Hurdeal, V. G., Hustad, V. P., Iotti, M., Iturriaga, T., Jafar, E., Janik, P., Jany, J. L., Jayalal, R. G.U., Jayasiri, S. C., Jayawardena, R. S., Jeewon, R., Jerônimo, G. H., Jesus, A. L., Jin, J., Johnston, P. R., Jones, E. B.G., Joshi, Y., Justo, A., Kaishian, P., Kakishima, M., Kaliyaperumal, M., Kang, G. P., Kang, J. C., Karakehian, J. M., Karimi, O., Karpov, S. A., Karunarathna, S. C., Kaufmann, M., Kemler, M., Kezo, K., Khyaju, S., Kirchmair, M., Kirk, P. M., Kitaura, M. J., Klawonn, I., Kolarik, M., Kong, A., Kuhar, F., Kukwa, M., Kumar, S., Kušan, I., Lado, C., Larsson, K. H., Latha, K. P.D., Lee, H. B., Leonardi, M., Leontyev, D. L., Lestari, A. S., Li, C. J.Y., Li, D. W., Li, H. Y., Li, L., Li, Q. R., Li, W. L., Li, Y., Li, Y. C., Liao, C. F., Liimatainen, K., Lim, Y. W., Lin, C. G., Linaldeddu, B. T., Linde, C. C., Linn, M. M., Liu, F., Liu, J. K., Liu, N. G., Liu, S., Liu, X. F., Liu, X. Z., Liu, Z. B., Lu, L., Lu, Y. Z., Luangharn, T., Luangsa-ard, J. J., Lumbsch, H. T., Lumyong, S., Luo, L., Luo, M., Luo, Z. L., Ma, J., Machado, A. R., Madagammana, A. D., Madrid, H., Magurno, F., Magyar, D., Mahadevan, N., Maharachchikumbura, S. S.N., Maimaiti, Y., Malosso, E., Manamgoda, D. S., Manawasinghe, I. S., Mapook, A., Marasinghe, D. S., Mardones, M., Marin-Felix, Y., Márquez, R., Masigol, H., Matočec, N., May, T. W., McKenzie, E. H.C., Meiras-Ottoni, A., Melo, R. F.R., Mendes-Alvarenga, R. L., Mendieta, S., Meng, Q. F., Menkis, A., Menolli, N., Mešić, A., Calvo, J. G.Meza, Mikhailov, K. V., Miller, S. L., Moncada, B., Moncalvo, J. M., Monteiro, J. S., Monteiro, M., Mora-Montes, H. M., Moreau, P. A., Mueller, G. M., Mukhopadyay, S., Murugadoss, R., Nagy, L. G., Najafiniya, M., Nanayakkara, C. M., Nascimento, C. C., Nei, Y., Neves, M. A., Neuhauser, S., Niego, A. G.T., Nilsson, R. H., Niskanen, T., Niveiro, N., Noorabadi, M. T., Noordeloos, M. E., Norphanphoun, C., Otaño, N. B.Nuñez, O’Donnell, R. P., Oehl, F., Olariaga, I., Orlando, O. P., Pang, K. L., Papp, V., Pawłowska, J., Peintner, U., Pem, D., Pereira, O. L., Perera, R. H., Perez-Moreno, J., Perez-Ortega, S., Péter, G., Phillips, A. J.L., Phonemany, M., Phukhamsakda, C., Phutthacharoen, K., Piepenbring, M., Pires-Zottarelli, C. L.A., Poinar, G., Pošta, A., Prieto, M., Promputtha, I., Quandt, C. A., Radek, R., Rahnama, K., Raj, K. N.A., Rajeshkumar, K. C., Rämä, T., Rambold, G., Ramírez-Cruz, V., Rasconi, S., Rathnayaka, A. R., Raza, M., Ren, G. C., Robledo, G. L., Rodriguez-Flakus, P., Ronikier, A., Rossi, W., Ryberg, M., Ryvarden, L. R., Salvador-Montoya, C. A., Samant, B., Samarakoon, B. C., Samarakoon, M. C., Sánchez-Castro, I., Sánchez-García, M., Sandoval-Denis, M., Santamaria, B., Santiago, A. L.C.M.A., Sarma, V. V., Savchenko, A., Savchenko, K., Saxena, R. K., Scholler, M., Schoutteten, N., Seifollahi, E., Selbmann, L., Selcuk, F., Senanayake, I. C., Shabashova, T. G., Shen, H. W., Shen, Y. M., Silva-Filho, A. G.S., Simmons, D. R., Singh, R., Sir, E. B., Song, C. G., Souza-Motta, C. M., Sruthi, O. P., Stadler, M., Stchigel, A. M., Stemler, J., Stephenson, S. L., Strassert, J. F.H., Su, H. L., Su, L., Suetrong, S., Sulistyo, B., Sun, Y. R., Svantesson, S., Sysouphanthong, P., Takamatsu, S., Tan, T. H., Tanaka, K., Tang, A. M.C., Tang, X., Tanney, J. B., Tavakol, N. M., Taylor, J. E., Taylor, P. W.J., Tedersoo, L., Tennakoon, D. S., Thamodini, G. K., Thines, M., Thiyagaraja, V., Thongklang, N., Tiago, P. V., Tian, Q., Tian, W. H., Tibell, L., Tibell, S., Tibpromma, S., Tkalčec, Z., Tomšovský, M., Toome-Heller, M., Torruella, G., Tsurykau, A., Udayanga, D., Ulukapi, M., Untereiner, W. A., Uzunov, B. A., Valle, L. G., Van Caenegem, W., Van den Wyngaert, S., Van Vooren, N., Velez, P., Verma, R. K., Vieira, L. C., Vieira, W. A.S., Vizzini, A., Walker, A., Walker, A. K., Wanasinghe, D. N., Wang, C. G., Wang, K., Wang, S. X., Wang, X. Y., Wang, Y., Wannasawang, N., Wartchow, F., Wei, D. P., Wei, X. L., White, J. F., Wijayawardene, N. N., Wijesinghe, S. N., Wijesundara, D. S.A., Wisitrassameewong, K., Worthy, F. R., Wu, F., Wu, G., Wu, H. X., Wu, N., Wu, W. P., Wurzbacher, C., Xiao, Y. P., Xiong, Y. R., Xu, B., Xu, L. J., Xu, R., Xu, T. M., Yakovchenko, L., Yan, J. Y., Yang, H. D., Yang, J., Yang, Z. L., Yang, Y. H., Yapa, N., Yasanthika, E., Youssef, N. H., Yu, F. M., Yu, Q., Yu, X. D., Yu, Y. X., Yu, Z. F., Yuan, H. S., Yuan, Y., Yurkov, A., Zafari, D., Zamora, J. C., Zare, R., Zeng, M., Zeng, N. K., Zeng, X. Y., Zhang, F., Zhang, H., Zhang, J. F., Zhang, J. Y., Zhang, Q. Y., Zhang, S. N., Zhang, W., Zhang, Y., Zhao, C. L., Zhao, H., Zhao, Q., Zhao, R. L., Zhou, L. W., Zhou, M., Zhurbenko, M. P., Zin, H. H., and Zucconi, L.

Abstract

The Global Consortium for the Classification of Fungi and fungus-like taxa is an international initiative of more than 550 mycologists to develop an electronic structure for the classification of these organisms. The members of the Consortium originate from 55 countries/regions worldwide, from a wide range of disciplines, and include senior, mid-career and early-career mycologists and plant pathologists. The Consortium will publish a biannual update of the Outline of Fungi and fungus-like taxa, to act as an international scheme for other scientists. Notes on all newly published taxa at or above the level of species will be prepared and published online on the Outline of Fungi website (https://www.outlineoffungi.org/), and these will be finally published in the biannual edition of the Outline of Fungi and fungus-like taxa. Comments on recent important taxonomic opinions on controversial topics will be included in the biannual outline. For example, 'to promote a more stable taxonomy in Fusarium given the divergences over its generic delimitation', or 'are there too many genera in the Boletales?' and even more importantly, 'what should be done with the tremendously diverse 'dark fungal taxa?' There are undeniable differences in mycologists' perceptions and opinions regarding species classification as well as the establishment of new species. Given the pluralistic nature of fungal taxonomy and its implications for species concepts and the nature of species, this consortium aims to provide a platform to better refine and stabilise fungal classification, taking into consideration views from different parties. In the future, a confidential voting system will be set up to gauge the opinions of all mycologists in the Consortium on important topics. The results of such surveys will be presented to the International Commission on the Taxonomy of Fungi (ICTF) and the Nomenclature Committee

Published
2023

12. Practice Expenses

Author

May, T. W., Debson, L., White, M. G., Ridgwick, J. H., Jeavons, P., and Singh, T. S.

Published
1974

16. Fungal planet description sheets: 625-715

Author

Crous, P. W., Wingfield, M. J., Burgess, T. I., Carnegie, A. J., Hardy, G. E.St J., Smith, D., Summerell, B. A., Cano-Lira, J. F., Guarro, J., Houbraken, J., Lombard, L., Martín, M. P., Sandoval-Denis, M., Alexandrova, A. V., Barnes, C. W., Baseia, I. G., Bezerra, J. D.P., Guarnaccia, V., May, T. W., Hernández-Restrepo, M., Stchige, A. M., Miller, A. N., Ordoñez, M. E., Abreu, V. P., Accioly, T., Agnello, C., Agustin Colmán, A., Albuquerque, C. C., Alfredo, D. S., Alvarado, P., Araújo-Magalhães, G. R., Arauzo, S., Atkinson, T., Barili, A., Barreto, R. W., Bezerra, J. L., Cabral, T. S., Camello Rodríguez, F. C., Cruz, R. H.S.F., Daniëls, P. P., Da Silva, B. D.B., De Almeida, D. A.C., Giraldo, A., Groenewald, M., Kraak, B., Meijer, M., Silva, G. A., Smith, M. Th, Wang, X. W., Groenewald, J. Z., Crous, P. W., Wingfield, M. J., Burgess, T. I., Carnegie, A. J., Hardy, G. E.St J., Smith, D., Summerell, B. A., Cano-Lira, J. F., Guarro, J., Houbraken, J., Lombard, L., Martín, M. P., Sandoval-Denis, M., Alexandrova, A. V., Barnes, C. W., Baseia, I. G., Bezerra, J. D.P., Guarnaccia, V., May, T. W., Hernández-Restrepo, M., Stchige, A. M., Miller, A. N., Ordoñez, M. E., Abreu, V. P., Accioly, T., Agnello, C., Agustin Colmán, A., Albuquerque, C. C., Alfredo, D. S., Alvarado, P., Araújo-Magalhães, G. R., Arauzo, S., Atkinson, T., Barili, A., Barreto, R. W., Bezerra, J. L., Cabral, T. S., Camello Rodríguez, F. C., Cruz, R. H.S.F., Daniëls, P. P., Da Silva, B. D.B., De Almeida, D. A.C., Giraldo, A., Groenewald, M., Kraak, B., Meijer, M., Silva, G. A., Smith, M. Th, Wang, X. W., and Groenewald, J. Z.

Abstract

Novel species of fungi described in this study include those from various countries as follows: Australia:Apiognomonia lasiopetali on Lasiopetalum sp Blastacervulus eucalyptorum on Eucalyptus adesmophloia,Bullanockia australis (incl. Bullanockia gen. nov.) on Kingia australis, Caliciopsis eucalypti on Eucalyptus marginata, Celerioriella petrophiles on Petrophile teretifolia, Coleophoma xanthosiae on Xanthosia rotundifolia, Coniothyrium hakeae on Hakea sp Diatrypella banksiae on Banksia formosa, Disculoides corymbiae on Corymbia calophylla, Elsinoë eelemani on Melaleuca alternifolia, Elsinoë eucalyptigena onEucalyptus kingsmillii, Elsinoë preissianae on Eucalyptus preissiana, Eucasphaeria rustici on Eucalyptus creta, Hyweljonesia queenslandica (incl. Hyweljonesia gen. nov.) on the cocoon of an unidentified microlepidoptera, Mycodiella eucalypti (incl. Mycodiella gen. nov.) on Eucalyptus diversicolor,Myrtapenidiella sporadicae on Eucalyptus sporadica, Neocrinula xanthorrhoeae (incl. Neocrinula gen. nov.) on Xanthorrhoea sp, Ophiocordyceps nooreniae on dead ant, Phaeosphaeriopsis agavacearum on Agavesp, Phlogicylindrium mokarei on Eucalyptus sp, Phyllosticta acaciigena on Acacia suaveolens,Pleurophoma acaciae on Acacia glaucoptera, Pyrenochaeta hakeae on Hakea sp, Readeriella lehmannii onEucalyptus lehmannii, Saccharata banksiae on Banksia grandis, Saccharata daviesiae on Daviesia pachyphylla, Saccharata eucalyptorum on Eucalyptus bigalerita, Saccharata hakeae on Hakea baxteri,Saccharata hakeicola on Hakea victoria, Saccharata lambertiae on Lambertia ericifolia, Saccharata petrophiles on Petrophile sp, Saccharata petrophilicola on Petrophile fastigiata, Sphaerellopsis hakeae onHakea sp, and Teichospora kingiae on Kingia australis. Brazil: Adautomilanezia caesalpiniae (incl. Adautomilanezia gen. nov.) on Caesalpina echinata, Arthrophiala arthrospora (incl. Arthrophiala gen. nov.) on Sagittaria montevidensis, Diaporthe caatingaensis (endophyte from Tacinga inamoena)

Published
2017

17. Fungal Planet description sheets: 625–715

Author

Ministry of Education, Youth and Sports (Czech Republic), European Commission, Secretaría de Educación Superior, Ciencia, Tecnología e Innovación (Ecuador), Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Fundação de Amparo à Pesquisa do Estado de São Paulo Minas Gerais, Fundação de Amparo à Ciência e Tecnologia do Estado de Pernambuco, Russian Science Foundation, Russian Academy of Sciences, Russian Foundation for Basic Research, Agence Nationale de la Recherche (France), Department of Biotechnology (India), National Centre for Microbial Resource (India), Bulgarian National Science Fund, Fédération Wallonie-Bruxelles, Northern Velebit National Park, VEGA Agency (Slovakia), National Science and Technology Development Agency (Thailand), Martín, María P. [0000-0002-1235-4418], Crous, P. W., Wingfield, M. J., Burgess, T.I., Carnegie, A. J., Hardy, G. E. St. J., Smith, D., Summerell, B. A., Cano-Lira, J.F., Guarro, J., Houbraken, J., Lombard, L., Kuera, V., Kumar, T. K. A., Kušan, I., Lacerda, S. R., Lamlertthon, S., Lisboa, W. S., Loizides, M., Luangsa-Ard, J. J., Lysková, P., Maccormack, W. P., Meši, A., Macedo, D. M., Machado, Alexandre R., Malysheva, E. F., Marinho, P., Matoec, N., Meijer, M., Mongkolsamrit, S., Moreira, K. A., Morozova, O. V., Nair, K. U., Nakamura, N., Noisripoom, W., Olariaga, I., Oliveira, R. J. V., Paiva, L. M., Roy, M., Pawar, P., Pereira, O. L., Peterson, S. W., Prieto, M., Rodríguez-Andrade, E., Rojodeblas, C., Santos, E. S., Sharma, R., Silva, G. A., Souza-Motta, C. M., Takeuchi-Kaneko, Y., Tanaka, C., Thakur, A., Smith, M. Th., Tkalec, Z., Martín, María P., Valenzuela-Lopez, N., Vanderkleij, P., Verbeken, A., Viana, M. G., Wang, X. W., Groenewald, J. Z., Sandoval Denis, M., Alexandrova, A. V., Barnes, C. W., Baseia, I.G., Bezerra, J. D. P., Guarnaccia, Vladimiro, May, T. W., Hernández-Restrepo, M., Stchigel, A. M., Miller, A. N., Ordoñez, M. E., Abreu, V. P., Accioly, Thiago, Agnello, C., Agustincolmán, A., Albuquerque, C. C., Alfredo, D. S., Alvarado, P., Araújo-Magalhães, G. R., Arauzo, S., Atkinson, T., Barili, A., Barreto, R. W., Bezerra, J. L., Cabral, T. S., Rodríguez, F. Camello, Cruz, R. H. S. F., Daniëls, Pablo P., Silva, Bianca D. B., Almeida, D. A. C., Carvalhojúnior, A. A., Decock, C. A., Delgat, L., Denman, S., Dimitrov, R. A., Edwards, J., Fedosova, A. G., Ferreira, Renato Juciano, Firmino, A. L., Flores, J. A., García, D., Gené, J., Giraldo, A., Góis, J. S., Gomes, A.M.P., Gonçalves, C. M., Gouliamova, D. E., Groenewald, M., Guéorguiev, B. V., Guevara-Suarez, M., Gusmão, L. F. P., Hosaka, K., Hubka, V., Huhndorf, S. M., Jadan, M. Jurjevi, Kraak, B., Ministry of Education, Youth and Sports (Czech Republic), European Commission, Secretaría de Educación Superior, Ciencia, Tecnología e Innovación (Ecuador), Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Fundação de Amparo à Pesquisa do Estado de São Paulo Minas Gerais, Fundação de Amparo à Ciência e Tecnologia do Estado de Pernambuco, Russian Science Foundation, Russian Academy of Sciences, Russian Foundation for Basic Research, Agence Nationale de la Recherche (France), Department of Biotechnology (India), National Centre for Microbial Resource (India), Bulgarian National Science Fund, Fédération Wallonie-Bruxelles, Northern Velebit National Park, VEGA Agency (Slovakia), National Science and Technology Development Agency (Thailand), Martín, María P. [0000-0002-1235-4418], Crous, P. W., Wingfield, M. J., Burgess, T.I., Carnegie, A. J., Hardy, G. E. St. J., Smith, D., Summerell, B. A., Cano-Lira, J.F., Guarro, J., Houbraken, J., Lombard, L., Kuera, V., Kumar, T. K. A., Kušan, I., Lacerda, S. R., Lamlertthon, S., Lisboa, W. S., Loizides, M., Luangsa-Ard, J. J., Lysková, P., Maccormack, W. P., Meši, A., Macedo, D. M., Machado, Alexandre R., Malysheva, E. F., Marinho, P., Matoec, N., Meijer, M., Mongkolsamrit, S., Moreira, K. A., Morozova, O. V., Nair, K. U., Nakamura, N., Noisripoom, W., Olariaga, I., Oliveira, R. J. V., Paiva, L. M., Roy, M., Pawar, P., Pereira, O. L., Peterson, S. W., Prieto, M., Rodríguez-Andrade, E., Rojodeblas, C., Santos, E. S., Sharma, R., Silva, G. A., Souza-Motta, C. M., Takeuchi-Kaneko, Y., Tanaka, C., Thakur, A., Smith, M. Th., Tkalec, Z., Martín, María P., Valenzuela-Lopez, N., Vanderkleij, P., Verbeken, A., Viana, M. G., Wang, X. W., Groenewald, J. Z., Sandoval Denis, M., Alexandrova, A. V., Barnes, C. W., Baseia, I.G., Bezerra, J. D. P., Guarnaccia, Vladimiro, May, T. W., Hernández-Restrepo, M., Stchigel, A. M., Miller, A. N., Ordoñez, M. E., Abreu, V. P., Accioly, Thiago, Agnello, C., Agustincolmán, A., Albuquerque, C. C., Alfredo, D. S., Alvarado, P., Araújo-Magalhães, G. R., Arauzo, S., Atkinson, T., Barili, A., Barreto, R. W., Bezerra, J. L., Cabral, T. S., Rodríguez, F. Camello, Cruz, R. H. S. F., Daniëls, Pablo P., Silva, Bianca D. B., Almeida, D. A. C., Carvalhojúnior, A. A., Decock, C. A., Delgat, L., Denman, S., Dimitrov, R. A., Edwards, J., Fedosova, A. G., Ferreira, Renato Juciano, Firmino, A. L., Flores, J. A., García, D., Gené, J., Giraldo, A., Góis, J. S., Gomes, A.M.P., Gonçalves, C. M., Gouliamova, D. E., Groenewald, M., Guéorguiev, B. V., Guevara-Suarez, M., Gusmão, L. F. P., Hosaka, K., Hubka, V., Huhndorf, S. M., Jadan, M. Jurjevi, and Kraak, B.

Abstract

Novel species of fungi described in this study include those from various countries as follows: Antarctica: Cadophora antarctica from soil. Australia: Alfaria dandenongensis on Cyperaceae, Amphosoma persooniae on Persoonia sp., Anungitea nullicana on Eucalyptus sp., Bagadiella eucalypti on Eucalyptus globulus, Castanediella eucalyptigena on Eucalyptus sp., Cercospora dianellicola on Dianella sp., Cladoriella kinglakensis on Eucalyptus regnans, Cladoriella xanthorrhoeae (incl. Cladoriellaceae fam. nov. and Cladoriellales ord. nov.) on Xanthorrhoea sp., Cochlearomyces eucalypti (incl. Cochlearomyces gen. nov. and Cochlearomycetaceae fam. nov.) on Eucalyptus obliqua, Codinaea lambertiae on Lambertia formosa, Diaporthe obtusifoliae on Acacia obtusifolia, Didymella acaciae on Acacia melanoxylon, Dothidea eucalypti on Eucalyptus dalrympleana, Fitzroyomyces cyperi (incl. Fitzroyomyces gen. nov.) on Cyperaceae, Murramarangomyces corymbiae (incl. Murramarangomyces gen. nov., Murramarangomycetaceae fam. nov. and Murramarangomycetales ord. nov.) on Corymbia maculata, Neoanungitea eucalypti (incl. Neoanungitea gen. nov.) on Eucalyptus obliqua, Neoconiothyrium persooniae (incl. Neoconiothyrium gen. nov.) on Persoonia laurina subsp. laurina, Neocrinula lambertiae (incl. Neocrinulaceae fam. nov.) on Lambertia sp., Ochroconis podocarpi on Podocarpus grayae, Paraphysalospora eucalypti (incl. Paraphysalospora gen. nov.) on Eucalyptus sieberi, Pararamichloridium livistonae (incl. Pararamichloridium gen. nov., Pararamichloridiaceae fam. nov. and Pararamichloridiales ord. nov.) on Livistona sp., Pestalotiopsis dianellae on Dianella sp., Phaeosphaeria gahniae on Gahnia aspera, Phlogicylindrium tereticornis on Eucalyptus tereticornis, Pleopassalora acaciae on Acacia obliquinervia, Pseudodactylaria xanthorrhoeae (incl. Pseudodactylaria gen. nov., Pseudodactylariaceae fam. nov. and Pseudodactylariales ord. nov.) on Xanthorrhoea sp., Pseudosporidesmium lambertiae (incl. Pseudosporidesmiaceae, Brazil: Achaetomium lippiae on Lippia gracilis, Cyathus isometricus on decaying wood, Geastrum caririense on soil, Lycoperdon demoulinii (incl. Lycoperdon subg. Arenicola) on soil, Megatomentella cristata (incl. Megatomentella gen. nov.) on unidentified plant, Mutinus verrucosus on soil, Paraopeba schefflerae (incl. Paraopeba gen. nov.) on Schefflera morototoni, Phyllosticta catimbauensis on Mandevilla catimbauensis, Pseudocercospora angularis on Prunus persica, Pseudophialophora sorghi on Sorghum bicolor, Spumula piptadeniae on Piptadenia paniculata. Bulgaria: Yarrowia parophonii from gut of Parophonus hirsutulus. Croatia: Pyrenopeziza velebitica on Lonicera borbasiana. Cyprus: Peziza halophila on coastal dunes Czech Republic: Aspergillus contaminans from human fingernail. Ecuador: Cuphophyllus yacurensis on forest soil, Ganoderma podocarpense on fallen tree trunk. England: Pilidium anglicum (incl. Chaetomellales ord. nov.) on Eucalyptus sp. France: Planamyces parisiensis (incl. Planamyces gen. nov.) on wood inside a house. French Guiana: Lactifluus ceraceus on soil. Germany: Talaromyces musae on Musa sp. India: Hyalocladosporiella cannae on Canna indica, Nothophoma raii from soil. Italy: Setophaeosphaeria citri on Citrus reticulata, Yuccamyces citri on Citrus limon. Japan: Glutinomyces brunneus (incl. Glutinomyces gen. nov.) from roots of Quercus sp. Netherlands (all from soil): Collariella hilkhuijsenii, Fusarium petersiae, Gamsia kooimaniorum, Paracremonium binnewijzendii, Phaeoisaria annesophieae, Plectosphaerella niemeijerarum, Striaticonidium deklijnearum, Talaromyces annesophieae, Umbelopsis wiegerinckiae, Vandijckella johannae (incl. Vandijckella gen. nov. and Vandijckellaceae fam. nov.), Verhulstia trisororum (incl. Verhulstia gen. nov.). New Zealand: Lasiosphaeria similisorbina on decorticated wood. Papua New Guinea: Pseudosubramaniomyces gen. nov. (based on Pseudosubramaniomyces fusisaprophyticus comb. nov.). Slovakia: Hemileucoglossum pusillum on soil.

Published
2017

19. Contaminant Concentrations and Ciomarker Responses of Piscivorous and Benthivorous Fish in the Colorado River Basin

Author

Hinck, Jo Ellen, Blazer, V. S., Denslow, N. D., Gross, T. S., Coyle, J. J., May, T. W., Orazio, C. E., Tillitt, D. E., Hinck, Jo Ellen, Blazer, V. S., Denslow, N. D., Gross, T. S., Coyle, J. J., May, T. W., Orazio, C. E., and Tillitt, D. E.

Abstract

The Large River Monitoring Network (LRMN) of the Biomonitoring of Environmental Status and Trends (BEST) Program measured tissue concentrations of selected contaminants and evaluated biomarker responses in black bass (Micropterus sp.), common carp (Cyprinus carpio), and channel catfish (Ictalurus punctatus) at 14 locations within Colorado River Basin (CDRB) in 2003. Major tributaries including the Yampa, Green, Gunnison, San Juan, and Gila Rivers were also sampled. Organic and inorganic contaminants were measured in whole-body composite fish samples, and the H4IIE bioassay determined dioxin-like activity in these samples. Fish health indicators (condition factor, somatic indices), immune system indicators (macrophage aggregate parameters), various molecular biomarkers (EROD, vitellogenin), and reproductive indicators (steroid hormones, gonadal histology) were measured in individual fish. Mean microsomal EROD activity was greatest in carp (>9 pmol/min/mg) from Phoenix, AZ, in channel catfish (>10 pmol/min/mg) from Vernal, UT and Grand Junction, CO, and in Bass (>60 pmol/min/mg) from Vernal, UT. Fish health indicators including macrophage aggregates and oocyte atresia indicated poor health of carp in the Lake Mead area. High health assessment index (HAI) values in bass, channel catfish, and carp collected throughout the CDRB were attributed to abnormalities of the liver, kidney, and spleen. Histological examination of the gonads revealed several intersex fish. Previous contaminant studies in this basin have a wide range of focus from high concentrations of selenium in irrigation return flows to emerging contaminants downstream of Las Vegas. Other concerns include dropping water levels in the lower Colorado River and the reestablishment of endangered species within the CDRB. The goal of this BEST LRMN project is to help characterize fish health and contaminant concerns in the CDRB.

Published
2004

20. Orbital radar evidence for lunar subsurface layering in Maria Serenitatis and Crisium

Author

Peeples, W. J, Sill, W. R, May, T. W, Ward, S. H, Phillips, R. J, Jordan, R. L, Abbott, E. A, and Killpack, T. J

Subjects
Lunar And Planetary Exploration
Abstract

Data from the lunar-orbiting Apollo 17 radar sounding experiment (60-m wavelength) have been examined in both digital and holographic formats, and it is concluded that there are two subsurface radar reflectors below the surface in Mare Serenitatis and one reflector below the surface in Mare Crisium. The mean apparent depths of the reflectors below the surface of the former Mare are 0.9 and 1.6 km, while the reflector below the surface of the latter Mare has a mean depth of 1.4 km. These reflectors represent basin-wide subsurface interfaces. Techniques for reducing surface backscatter (clutter) in the data are described, and reasons for thinking that the distinct alignments in radar returns represent subsurface reflecting horizons are explained

Published
1978

25. Hypocreopsis amplectens sp. nov., a rare fungus from New Zealand and Australia

Author

Johnston, P. R., May, T. W., Park, D., and Horak, E.

Abstract

Hypocreopsis amplectens is distinguished from other Hypocreopsis species by its 3-4-spored asci and multiseptate, rough-walled ascospores. As the asci mature it is common for one spore to abort or for adjacent spores to fuse. This fungus has been referred to as Hypocreopsis sp. and Hypocreopsis sp. 'Nyora' in the Australian literature. In Victoria, Australia, H. amplectens has been classified as “vulnerable” under the Victorian Flora and Fauna Guarantee Act 1988, and the Nyora Flora and Fauna Reserve was created partly because of its occurrence there. Despite intensive surveys it is still known from only three sites in Australia. In New Zealand it is known from a single collection made more than 20 years ago in Nothofagus forest at a site visited regularly by mycologists. Its status as a rare fungus makes it eligible for inclusion on national threat status lists in Australia and New Zealand.

Published
2007
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27. Genetic Algorithm and PID Control Together for Dynamic Anticipative Marginal Buffer Management: An Effective Approach to Enhance Dependability and Performance for Distributed Mobile Object-Based Real-Time Computing over the Internet

Author

Wong, Allan K. Y., Lin, Wilfred W. K., Ip, May T. W., and Dillon, Tharam S.

Subjects
*DATA transmission systems, *GENETIC algorithms
Abstract

A novel model that combines genetic algorithm (GA) and proportional + integral + derivative (PID) control for adaptive marginal buffer management is proposed here. The goal is to prevent buffer overflow at the receiver side so that message retransmissions that lead to poor system reliability and performance can be eliminated. Marginal buffer control keeps the difference between the buffer length and the queue length continuously within a safety margin Δ, in an anticipative, adaptive manner. At first, we will propose the PID controller and show that it alone can achieve the goal but with some shortcomings. We then propose to trim these shortcomings by the GA objective function {0, Δ}2. The PID control makes use of the micro version of the convergence algorithm, namely, the M2RT, which is an effective internet end-to-end performance measurement (IEPM) method developed by us previously to predict the trend of a distribution. In this case the M2RT, which exists as an independent program object, predicts the dynamic queue length quickly and accurately once invoked by clients. Such predictions enable the GA-augmented PID (GA–PID) to determine whether the buffer length should be increased or decreased adaptively to maintain the safety margin Δ. The GA–PID model was verified and validated in a distributed mobile object-based real-time computing (DMORC) environment, which was implemented over the Internet with the Java-based Aglets mobile agent platform. The preliminary tests confirm that the GA–PID model is indeed an effective solution for achieving dynamic marginal buffer management for DMORC systems. [Copyright &y& Elsevier]

Published
2002
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28. Fungal Planet description sheets: 1112-1181.

Author

Crous PW, Cowan DA, Maggs-Kölling G, Yilmaz N, Larsson E, Angelini C, Brandrud TE, Dearnaley JDW, Dima B, Dovana F, Fechner N, García D, Gené J, Halling RE, Houbraken J, Leonard P, Luangsa-Ard JJ, Noisripoom W, Rea-Ireland AE, Ševčíková H, Smyth CW, Vizzini A, Adam JD, Adams GC, Alexandrova AV, Alizadeh A, Duarte EÁ, Andjic V, Antonín V, Arenas F, Assabgui R, Ballarà J, Banwell A, Berraf-Tebbal A, Bhatt VK, Bonito G, Botha W, Burgess TI, Caboň M, Calvert J, Carvalhais LC, Courtecuisse R, Cullington P, Davoodian N, Decock CA, Dimitrov R, Di Piazza S, Drenth A, Dumez S, Eichmeier A, Etayo J, Fernández I, Fiard JP, Fournier J, Fuentes-Aponte S, Ghanbary MAT, Ghorbani G, Giraldo A, Glushakova AM, Gouliamova DE, Guarro J, Halleen F, Hampe F, Hernández-Restrepo M, Iturrieta-González I, Jeppson M, Kachalkin AV, Karimi O, Khalid AN, Khonsanit A, Kim JI, Kim K, Kiran M, Krisai-Greilhuber I, Kučera V, Kušan I, Langenhoven SD, Lebel T, Lebeuf R, Liimatainen K, Linde C, Lindner DL, Lombard L, Mahamedi AE, Matočec N, Maxwell A, May TW, McTaggart AR, Meijer M, Mešić A, Mileto AJ, Miller AN, Molia A, Mongkolsamrit S, Cortés CM, Muñoz-Mohedano J, Morte A, Morozova OV, Mostert L, Mostowfizadeh-Ghalamfarsa R, Nagy LG, Navarro-Ródenas A, Örstadius L, Overton BE, Papp V, Para R, Peintner U, Pham THG, Pordel A, Pošta A, Rodríguez A, Romberg M, Sandoval-Denis M, Seifert KA, Semwal KC, Sewall BJ, Shivas RG, Slovák M, Smith K, Spetik M, Spies CFJ, Syme K, Tasanathai K, Thorn RG, Tkalčec Z, Tomashevskaya MA, Torres-Garcia D, Ullah Z, Visagie CM, Voitk A, Winton LM, and Groenewald JZ

Abstract

Novel species of fungi described in this study include those from various countries as follows: Australia , Austroboletus asper on soil, Cylindromonium alloxyli on leaves of Alloxylon pinnatum, Davidhawksworthia quintiniae on leaves of Quintinia sieberi, Exophiala prostantherae on leaves of Prostanthera sp., Lactifluus lactiglaucus on soil, Linteromyces quintiniae (incl. Linteromyces gen. nov.) on leaves of Quintinia sieberi , Lophotrichus medusoides from stem tissue of Citrus garrawayi , Mycena pulchra on soil, Neocalonectria tristaniopsidis (incl. Neocalonectria gen. nov.) and Xyladictyochaeta tristaniopsidis on leaves of Tristaniopsis collina, Parasarocladium tasmanniae on leaves of Tasmannia insipida , Phytophthora aquae-cooljarloo from pond water, Serendipita whamiae as endophyte from roots of Eriochilus cucullatus , Veloboletus limbatus (incl. Veloboletus gen. nov.) on soil. Austria , Cortinarius glaucoelotus on soil. Bulgaria , Suhomyces rilaensis from the gut of Bolitophagus interruptus found on a Polyporus sp. Canada , Cantharellus betularum among leaf litter of Betula , Penicillium saanichii from house dust. Chile , Circinella lampensis on soil, Exophiala embothrii from rhizosphere of Embothrium coccineum. China , Colletotrichum cycadis on leaves of Cycas revoluta. Croatia , Phialocephala melitaea on fallen branch of Pinus halepensis . Czech Republic , Geoglossum jirinae on soil, Pyrenochaetopsis rajhradensis from dead wood of Buxus sempervirens. Dominican Republic , Amanita domingensis on litter of deciduous wood, Melanoleuca dominicana on forest litter. France , Crinipellis nigrolamellata (Martinique) on leaves of Pisonia fragrans , Talaromyces pulveris from bore dust of Xestobium rufovillosum infesting floorboards. French Guiana , Hypoxylon hepaticolor on dead corticated branch. Great Britain , Inocybe ionolepis on soil. India , Cortinarius indopurpurascens among leaf litter of Quercus leucotrichophora. Iran , Pseudopyricularia javanii on infected leaves of Cyperus sp., Xenomonodictys iranica (incl. Xenomonodictys gen. nov.) on wood of Fagus orientalis. Italy , Penicillium vallebormidaense from compost. Namibia , Alternaria mirabibensis on plant litter, Curvularia moringae and Moringomyces phantasmae (incl. Moringomyces gen. nov.) on leaves and flowers of Moringa ovalifolia, Gobabebomyces vachelliae (incl. Gobabebomyces gen. nov.) on leaves of Vachellia erioloba, Preussia procaviae on dung of Procavia capensis. Pakistan , Russula shawarensis from soil on forest floor. Russia , Cyberlindnera dauci from Daucus carota . South Africa , Acremonium behniae on leaves of Behnia reticulata, Dothiora aloidendri and Hantamomyces aloidendri (incl. Hantamomyces gen. nov.) on leaves of Aloidendron dichotomum , Endoconidioma euphorbiae on leaves of Euphorbia mauritanica , Eucasphaeria proteae on leaves of Protea neriifolia , Exophiala mali from inner fruit tissue of Malus sp., Graminopassalora geissorhizae on leaves of Geissorhiza splendidissima , Neocamarosporium leipoldtiae on leaves of Leipoldtia schultzii , Neocladosporium osteospermi on leaf spots of Osteospermum moniliferum , Neometulocladosporiella seifertii on leaves of Combretum caffrum , Paramyrothecium pituitipietianum on stems of Grielum humifusum , Phytopythium paucipapillatum from roots of Vitis sp., Stemphylium carpobroti and Verrucocladosporium carpobroti on leaves of Carpobrotus quadrifolius , Suttonomyces cephalophylli on leaves of Cephalophyllum pilansii . Sweden , Coprinopsis rubra on cow dung, Elaphomyces nemoreus from deciduous woodlands. Spain , Polyscytalum pini-canariensis on needles of Pinus canariensis , Pseudosubramaniomyces septatus from stream sediment, Tuber lusitanicum on soil under Quercus suber. Thailand , Tolypocladium flavonigrum on Elaphomyces sp. USA , Chaetothyrina spondiadis on fruits of Spondias mombin, Gymnascella minnisii from bat guano, Juncomyces patwiniorum on culms of Juncus effusus , Moelleriella puertoricoensis on scale insect, Neodothiora populina (incl. Neodothiora gen. nov.) on stem cankers of Populus tremuloides , Pseudogymnoascus palmeri from cave sediment. Vietnam , Cyphellophora vietnamensis on leaf litter, Tylopilus subotsuensis on soil in montane evergreen broadleaf forest. Morphological and culture characteristics are supported by DNA barcodes., (© 2020 Naturalis Biodiversity Center & Westerdijk Fungal Biodiversity Institute.)

Published
2020
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29. Fungal Planet description sheets: 625-715.

Author

Crous PW, Wingfield MJ, Burgess TI, Carnegie AJ, Hardy GESJ, Smith D, Summerell BA, Cano-Lira JF, Guarro J, Houbraken J, Lombard L, Martín MP, Sandoval-Denis M, Alexandrova AV, Barnes CW, Baseia IG, Bezerra JDP, Guarnaccia V, May TW, Hernández-Restrepo M, Stchigel AM, Miller AN, Ordoñez ME, Abreu VP, Accioly T, Agnello C, Agustin Colmán A, Albuquerque CC, Alfredo DS, Alvarado P, Araújo-Magalhães GR, Arauzo S, Atkinson T, Barili A, Barreto RW, Bezerra JL, Cabral TS, Camello Rodríguez F, Cruz RHSF, Daniëls PP, da Silva BDB, de Almeida DAC, de Carvalho Júnior AA, Decock CA, Delgat L, Denman S, Dimitrov RA, Edwards J, Fedosova AG, Ferreira RJ, Firmino AL, Flores JA, García D, Gené J, Giraldo A, Góis JS, Gomes AAM, Gonçalves CM, Gouliamova DE, Groenewald M, Guéorguiev BV, Guevara-Suarez M, Gusmão LFP, Hosaka K, Hubka V, Huhndorf SM, Jadan M, Jurjević Ž, Kraak B, Kučera V, Kumar TKA, Kušan I, Lacerda SR, Lamlertthon S, Lisboa WS, Loizides M, Luangsa-Ard JJ, Lysková P, Mac Cormack WP, Macedo DM, Machado AR, Malysheva EF, Marinho P, Matočec N, Meijer M, Mešić A, Mongkolsamrit S, Moreira KA, Morozova OV, Nair KU, Nakamura N, Noisripoom W, Olariaga I, Oliveira RJV, Paiva LM, Pawar P, Pereira OL, Peterson SW, Prieto M, Rodríguez-Andrade E, Rojo De Blas C, Roy M, Santos ES, Sharma R, Silva GA, Souza-Motta CM, Takeuchi-Kaneko Y, Tanaka C, Thakur A, Smith MT, Tkalčec Z, Valenzuela-Lopez N, van der Kleij P, Verbeken A, Viana MG, Wang XW, and Groenewald JZ

Abstract

Novel species of fungi described in this study include those from various countries as follows: Antarctica : Cadophora antarctica from soil. Australia : Alfaria dandenongensis on Cyperaceae , Amphosoma persooniae on Persoonia sp., Anungitea nullicana on Eucalyptus sp . , Bagadiella eucalypti on Eucalyptus globulus , Castanediella eucalyptigena on Eucalyptus sp., Cercospora dianellicola on Dianella sp., Cladoriella kinglakensis on Eucalyptus regnans , Cladoriella xanthorrhoeae (incl. Cladoriellaceae fam. nov. and Cladoriellales ord. nov.) on Xanthorrhoea sp., Cochlearomyces eucalypti (incl. Cochlearomyces gen. nov. and Cochlearomycetaceae fam. nov.) on Eucalyptus obliqua , Codinaea lambertiae on Lambertia formosa , Diaporthe obtusifoliae on Acacia obtusifolia , Didymella acaciae on Acacia melanoxylon , Dothidea eucalypti on Eucalyptus dalrympleana , Fitzroyomyces cyperi (incl. Fitzroyomyces gen. nov.) on Cyperaceae , Murramarangomyces corymbiae (incl. Murramarangomyces gen. nov., Murramarangomycetaceae fam. nov. and Murramarangomycetales ord. nov.) on Corymbia maculata , Neoanungitea eucalypti (incl. Neoanungitea gen. nov.) on Eucalyptus obliqua , Neoconiothyrium persooniae (incl. Neoconiothyrium gen. nov.) on Persoonia laurina subsp. laurina , Neocrinula lambertiae (incl. Neocrinulaceae fam. nov.) on Lambertia sp., Ochroconis podocarpi on Podocarpus grayae , Paraphysalospora eucalypti (incl. Paraphysalospora gen. nov.) on Eucalyptus sieberi , Pararamichloridium livistonae (incl. Pararamichloridium gen. nov., Pararamichloridiaceae fam. nov. and Pararamichloridiales ord. nov.) on Livistona sp., Pestalotiopsis dianellae on Dianella sp., Phaeosphaeria gahniae on Gahnia aspera , Phlogicylindrium tereticornis on Eucalyptus tereticornis , Pleopassalora acaciae on Acacia obliquinervia , Pseudodactylaria xanthorrhoeae (incl. Pseudodactylaria gen. nov., Pseudodactylariaceae fam. nov. and Pseudodactylariales ord. nov.) on Xanthorrhoea sp., Pseudosporidesmium lambertiae (incl. Pseudosporidesmiaceae fam. nov.) on Lambertia formosa , Saccharata acaciae on Acacia sp., Saccharata epacridis on Epacris sp., Saccharata hakeigena on Hakea sericea , Seiridium persooniae on Persoonia sp., Semifissispora tooloomensis on Eucalyptus dunnii , Stagonospora lomandrae on Lomandra longifolia , Stagonospora victoriana on Poaceae , Subramaniomyces podocarpi on Podocarpus elatus , Sympoventuria melaleucae on Melaleuca sp . , Sympoventuria regnans on Eucalyptus regnans , Trichomerium eucalypti on Eucalyptus tereticornis , Vermiculariopsiella eucalypticola on Eucalyptus dalrympleana , Verrucoconiothyrium acaciae on Acacia falciformis , Xenopassalora petrophiles (incl. Xenopassalora gen. nov.) on Petrophile sp . , Zasmidium dasypogonis on Dasypogon sp., Zasmidium gahniicola on Gahnia sieberiana. Brazil : Achaetomium lippiae on Lippia gracilis , Cyathus isometricus on decaying wood, Geastrum caririense on soil, Lycoperdon demoulinii (incl. Lycoperdon subg. Arenicola ) on soil, Megatomentella cristata (incl. Megatomentella gen. nov.) on unidentified plant, Mutinus verrucosus on soil, Paraopeba schefflerae (incl. Paraopeba gen. nov.) on Schefflera morototoni , Phyllosticta catimbauensis on Mandevilla catimbauensis , Pseudocercospora angularis on Prunus persica , Pseudophialophora sorghi on Sorghum bicolor , Spumula piptadeniae on Piptadenia paniculata. Bulgaria : Yarrowia parophonii from gut of Parophonus hirsutulus . Croatia : Pyrenopeziza velebitica on Lonicera borbasiana. Cyprus : Peziza halophila on coastal dunes. Czech Republic : Aspergillus contaminans from human fingernail. Ecuador : Cuphophyllus yacurensis on forest soil, Ganoderma podocarpense on fallen tree trunk. England : Pilidium anglicum (incl. Chaetomellales ord. nov.) on Eucalyptus sp. France : Planamyces parisiensis (incl. Planamyces gen. nov.) on wood inside a house. French Guiana : Lactifluus ceraceus on soil. Germany : Talaromyces musae on Musa sp. India : Hyalocladosporiella cannae on Canna indica , Nothophoma raii from soil. Italy : Setophaeosphaeria citri on Citrus reticulata , Yuccamyces citri on Citrus limon. Japan : Glutinomyces brunneus (incl. Glutinomyces gen. nov.) from roots of Quercus sp. Netherlands (all from soil): Collariella hilkhuijsenii , Fusarium petersiae , Gamsia kooimaniorum , Paracremonium binnewijzendii , Phaeoisaria annesophieae , Plectosphaerella niemeijerarum , Striaticonidium deklijnearum , Talaromyces annesophieae , Umbelopsis wiegerinckiae , Vandijckella johannae (incl. Vandijckella gen. nov. and Vandijckellaceae fam. nov.), Verhulstia trisororum (incl. Verhulstia gen. nov.). New Zealand : Lasiosphaeria similisorbina on decorticated wood. Papua New Guinea : Pseudosubramaniomyces gen. nov. (based on Pseudosubramaniomyces fusisaprophyticus comb. nov.). Slovakia : Hemileucoglossum pusillum on soil. South Africa : Tygervalleyomyces podocarpi (incl. Tygervalleyomyces gen. nov.) on Podocarpus falcatus. Spain : Coniella heterospora from herbivorous dung, Hymenochaete macrochloae on Macrochloa tenacissima , Ramaria cistophila on shrubland of Cistus ladanifer. Thailand : Polycephalomyces phaothaiensis on Coleoptera larvae, buried in soil. Uruguay : Penicillium uruguayense from soil. Vietnam : Entoloma nigrovelutinum on forest soil, Volvariella morozovae on wood of unknown tree. Morphological and culture characteristics along with DNA barcodes are provided.

Published
2017
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30. Data on the fungal species consumed by mammal species in Australia.

Author

Nuske SJ, Vernes K, May TW, Claridge AW, Congdon BC, Krockenberger A, and Abell SE

Abstract

The data reported here support the manuscript Nuske et al. (2017) [1]. Searches were made for quantitative data on the occurrence of fungi within dietary studies of Australian mammal species. The original location reported in each study was used as the lowest grouping variable within the dataset. To standardise the data and compare dispersal events from populations of different mammal species that might overlap, data from locations were further pooled and averaged across sites if they occurred within 100 km of a random central point. Three locations in Australia contained data on several (>7) mycophagous mammals, all other locations had data on 1-3 mammal species. Within these three locations, the identity of the fungi species was compared between mammal species' diets. A list of all fungi species found in Australian mammalian diets is also provide along with the original reference and fungal synonym names.

Published
2017
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31. An evaluation of selenium concentrations in water, sediment, invertebrates, and fish from the Republican River Basin: 1997-1999.

Author

May TW, Walther MJ, Petty JD, Fairchild JF, Lucero J, Delvaux M, Manring J, Armbruster M, and Hartman D

Subjects
Animals, Colorado, Fishes physiology, Fresh Water analysis, Geologic Sediments analysis, Kansas, Nebraska, Reproduction drug effects, Selenium pharmacokinetics, Selenium toxicity, Water Pollutants, Chemical pharmacokinetics, Water Pollutants, Chemical toxicity, Environmental Exposure, Fishes metabolism, Invertebrates metabolism, Selenium analysis, Water Pollutants, Chemical analysis
Abstract

The Republican River Basin of Colorado, Nebraska, and Kansas lies in a valley which contains Pierre Shale as part of its geological substrata. Selenium is an indigenous constituent in the shale and is readily leached into surrounding groundwater. The Basin is heavily irrigated through the pumping of groundwater, some of which is selenium-contaminated, onto fields in agricultural production. Water, sediment, benthic invertebrates, and/or fish were collected from 46 sites in the Basin and were analyzed for selenium to determine the potential for food-chain bioaccumulation, dietary toxicity, and reproductive effects of selenium in biota. Resulting selenium concentrations were compared to published guidelines or biological effects thresholds. Water from 38% of the sites (n = 18) contained selenium concentrations exceeding 5 microg L(-1), which is reported to be a high hazard for selenium accumulation into the planktonic food chain. An additional 12 sites (26% of the sites) contained selenium in water between 3-5 microg L(-1), constituting a moderate hazard. Selenium concentrations in sediment indicated little to no hazard for selenium accumulation from sediments into the benthic food chain. Ninety-five percent of benthic invertebrates collected exhibited selenium concentrations exceeding 3 microg g(-1), a level reported as potentially lethal to fish and birds that consume them. Seventy-five percent of fish collected in 1997, 90% in 1998, and 64% in 1999 exceeded 4 microg g(-1) selenium, indicating a high potential for toxicity and reproductive effects. However, examination of weight profiles of various species of collected individual fish suggested successful recruitment in spite of selenium concentrations that exceeded published biological effects thresholds for health and reproductive success. This finding suggested that universal application of published guidelines for selenium may be inappropriate or at least may need refinement for systems similar to the Republican River Basin. Additional research is needed to determine the true impact of selenium on fish and wildlife resources in the Basin.

Published
2001
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32. Incidence of epilepsies and epileptic syndromes in children and adolescents: a population-based prospective study in Germany.

Author

Freitag CM, May TW, Pfäfflin M, König S, and Rating D

Subjects
Adolescent, Age Factors, Child, Child, Preschool, Cross-Cultural Comparison, Epilepsies, Partial epidemiology, Epilepsy classification, Epilepsy, Generalized epidemiology, Germany epidemiology, Humans, Incidence, Infant, North America epidemiology, Prospective Studies, Sex Factors, United States epidemiology, Epilepsy epidemiology
Abstract

Purpose: To estimate the incidence rate of epilepsies and epileptic syndromes in German children and adolescents aged 1 month to <15 years, and to provide data on their classification., Methods: A population-based prospective study was performed between July 1, 1999, and June 30, 2000. All children aged 1 month to <15 years with a newly diagnosed epilepsy or epileptic syndrome were recorded by private pediatricians, EEG laboratories, and the two University Children's Hospitals in the neighboring cities of Heidelberg and Mannheim. The diagnoses were classified according to the International Classification of Epilepsies and Epileptic Syndromes of the International League Against Epilepsy (ILAE)., Results: The total age-adjusted annual incidence rate was 60/100,000 (95% confidence interval, 42-84), with the highest incidence in the first year of life (146/100,000). Focal epilepsies or epileptic syndromes (58%; incidence rate, 35/100,000) were more common than were generalized ones (39%; incidence rate, 24/100,000), and 3% (incidence rate, 2/100,000) of the epilepsies or epileptic syndromes were undetermined. The rate of idiopathic (47%; incidence rate, 29/100,000) and symptomatic or cryptogenic epilepsies (50%; incidence rate, 30/100,000) was equal. No significant difference in incidence between boys and girls was found., Conclusions: Incidence rates for epilepsy in German children aged 1 month to <15 years are about equal to those of other countries in Europe and North America. In accordance with studies from the United States and from many European countries, incidence was highest in the first year of life, and no difference in the incidence between girls and boys was found. In Germany as throughout Europe, idiopathic generalized epileptic syndromes are more often diagnosed than in the United States.

Published
2001
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33. Hazard assessment of selenium and other trace elements in wild larval razorback sucker from the Green River, Utah.

Author

Hamilton SJ, Muth RT, Waddell B, and May TW

Subjects
Animals, Fresh Water, Risk Assessment, Selenium analysis, Survival Rate, Trace Elements analysis, Utah, Vanadium analysis, Vanadium toxicity, Water Pollutants analysis, Fishes physiology, Larva drug effects, Selenium toxicity, Trace Elements toxicity, Water Pollutants toxicity
Abstract

Contaminant investigations of the Green River in northeastern Utah have documented selenium contamination at sites receiving irrigation drainage. The Green River provides critical habitat for four endangered fishes including the largest extant riverine population of endangered razorback sucker. Although 2175 larval razorback suckers were collected from the river between 1992 and 1996, very few juveniles have been captured within recent decades. Selenium concentrations were measured in larval razorback suckers collected from five sites in the Green River (Cliff Creek, Stewart Lake Drain, Sportsman's Drain, Greasewood Corral, and Old Charlie Wash) to assess the potential for adverse effects on recruitment of larvae to the juvenile stage and the adult population. Larvae from all sites contained mean selenium concentrations ranging from 4.3 to 5.8 microg/g. These values were at or above the proposed toxic threshold of 4 microg/g for adverse biological effects in fish, which was derived from several laboratory and field studies with a wide range of fish species. At two sites, Cliff Creek and Stewart Lake Drain, selenium concentrations in larvae increased over time as fish grew, whereas selenium concentrations decreased as fish grew at Sportsman's Drain. Evaluation of a 279-larvae composite analyzed for 61 elements demonstrated that selenium and, to a lesser extent, vanadium were elevated to concentrations reported to be toxic to a wide range of fish species. Elevated selenium concentrations in larval razorback suckers from the five sites suggest that selenium contamination may be widespread in the Green River, and that survival and recruitment of larvae to the juvenile stage may be limited due to adverse biological effects. Selenium contamination may be adversely affecting the reproductive success and recruitment of endangered razorback sucker., (Copyright 2000 Academic Press.)

Published
2000
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