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A global-scale screening of non-native aquatic organisms to identify potentially invasive species under current and future climate conditions por Vilizzi, Lorenzo, Copp, Gordon H., Hill, Jeffrey E., Adamovich, Boris, Aislabie, Luke, Akin, Daniel, Al Faisal, Abbas J., Almeida, David, Azmai, M.N. Amal, Bakiu, Rigers, Bellati, Adriana, Bernier, Renée, Bies, Jason M., Bilge, Gökçen, Branco, Paulo, Bui, Thuyet D., Canning Clode, João, Cardoso Ramos, Henrique Anatole, Castellanos Galindo, Gustavo A., Castro, Nuno, Chaichana, Ratcha, Chainho, Paula, Chan, Joleen, Cunico, Almir M., Curd, Amelia, Dangchana, Punyanuch, Dashinov, Dimitriy, Davison, Phil I., De Camargo, Mariele P., Dodd, Jennifer A., Durland Donahou, Allison L., Edsman, Lennart, Ekmekçi, F. Güler, Elphinstone Davis, Jessica, Erős, Tibor, Evangelista, Charlotte, Fenwick, Gemma, Ferincz, Árpád, Ferreira, Teresa, Feunteun, Eric, Filiz, Halit, Forneck, Sandra C., Gajduchenko, Helen S., Gama Monteiro, João, Gestoso, Ignacio, Giannetto, Daniela, Gilles, Allan S., Gizzi, Francesca, Glamuzina, Branko, Glamuzina, Luka, Goldsmit, Jesica, Gollasch, Stephan, Goulletquer, Philippe, Grabowska, Joanna, Harmer, Rogan, Haubrock, Phillip J., He, Dekui, Hean, Jeffrey W., Herczeg, Gábor, Howland, Kimberly L., Ilhan, Ali, Interesova, Elena, Jakubčinová, Katarína, Jelmert, Anders, Johnsen, Stein I., Kakareko, Tomasz, Kanongdate, Kamalaporn, Killi, Nurçin, Kim, Jeong-Eun, Kırankaya, Şerife Gülsün, Kňazovická, Dominika, Kopecký, Oldřich, Kostov, Vasil, Koutsikos, Nicholas, Kozic, Sebastian, Kuljanishvili, Tatia, Kumar, Biju, Kumar, Lohith, Kurita, Yoshihisa, Kurtul, Irmak, Lazzaro, Lorenzo, Lee, Laura, Lehtiniemi, Maiju, Leonardi, Giovanni, Leuven, Rob S.E.W., Li, Shan, Lipinskaya, Tatsiana, Liu, Fei, Lloyd, Lance, Lorenzoni, Massimo, Luna, Sergio Alberto, Lyons, Timothy J., Magellan, Kit, Malmstrøm, Martin, Marchini, Agnese, Marr, Sean M., Masson, Gérard, Masson, Laurence, McKenzie, Cynthia H., Memedemin, Daniyar, Mendoza, Roberto, Minchin, Dan, Miossec, Laurence, Moghaddas, Seyed Daryoush, Moshobane, Moleseng C., Mumladze, Levan, Naddafi, Rahmat, Najafi Majd, Elnaz, Năstase, Aurel, Năvodaru, Ion, Neal, J. Wesley, Nienhuis, Sarah, Nimtim, Matura, Nolan, Emma T., Occhipinti Ambrogi, Anna, Ojaveer, Henn, Olenin, Sergej, Olsson, Karin, Onikura, Norio, O'Shaughnessy, Kathryn, Paganelli, Daniele, Parretti, Paola, Patoka, Jiří, Pavia, Richard Thomas B., Pellitteri Rosa, Daniele, Pelletier Rousseau, Michèle, Peralta, Elfritzson M., Perdikaris, Costas, Pietraszewski, Dariusz, Piria, Marina, Pitois, Sophie, Pompei, Laura, Poulet, Nicolas, Preda, Cristina, Puntila Dodd, Riikka, Qashqaei, Ali T., Radočaj, Tena, Rahmani, Hossein, Raj, Smrithy, Reeves, David, Ristovska, Milica, Rizevsky, Viktor, Robertson, D. Ross, Robertson, Peter, Ruykys, Laura, Saba, Abdulwakil O., Santos, José M., Sarı, Hasan M., Segurado, Pedro, Semenchenko, Vitaliy, Senanan, Wansuk, Simard, Nathalie, Simonović, Predrag, Skóra, Michał E., Slovák Švolíková, Kristína, Smeti, Evangelia, Smídová, Tereza, Spelić, Ivan, Srėbalienė, Greta, Stasolla, Gianluca, Stebbing, Paul, Stevove, Barbora, Suresh, Vettath R., Szajbert, Bettina, Ta, Kieu Anh T., Tarkan, Ali Serhan, Tempesti, Jonathan, Therriault, Thomas W., Tidbury, Hannah J., Top Karakuş, Nildeniz, Tricarico, Elena, Troca, Débora F.A., Tsiamis, Konstantinos, Tuckett, Quenton M., Tutman, Pero, Uyan, Umut, Uzunova, Eliza, Vardakas, Leonidas, Velle, Gaute, Verreycken, Hugo, Vintsek, Lizaveta, Wei, Hui, Weiperth, András, Weyl, Olaf L.F., Winter, Emily R., Włodarczyk, Radosław, Wood, Louisa E., Yang, Ruibin, Yapıcı, Sercan, Yeo, Shayne S.B., Yoğurtçuoğlu, Baran, Yunnie, Anna L.E., Zhu, Yunjie, Zięba, Grzegorz, Zitňanová, Kristína, Clarke, Stacey

“…In total, 33 species were identified as posing a ‘very high risk’ of being or becoming invasive, and the scores of several of these species under current climate increased under future climate conditions, primarily due to their wide thermal tolerances. …”
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Desarrollo de algoritmos matemáticos para detectar la presencia de bacterias, hongos y plagas, utilizando sistemas de procesamiento de imágenes. por Grajeda González, Uziel Francisco

“…Due to the rapid spread and reproduction of the pest in different areas of Mexico, it is essential to use technologies such as the acquisition and processing of images, as well as the vision machine to assist monitoring and rapid counting process. It is also very important to consider in future research the release of an adequate amount of beneficial insects, such as Coccinellidae, because they can control the yellow aphid population in sorghum culture, as well as the use of hyperspectral image processing.…”
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Resolución de conflictos, política educativa, estado de derecho, y geopolítica: Pasado y presente por de la Garza Montemayor, Daniel Javier

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