Your search keyword '"Walker, Donald M."' showing total 9 results

1. Herptile gut microbiomes: a natural system to study multi-kingdom interactions between filamentous fungi and bacteria

Author

Vargas-Gastélum, Lluvia, Romer, Alexander S., Ghotbi, Marjan, Dallas, Jason W., Alexander, N. Reed, Moe, Kylie C., McPhail, Kerry L., Neuhaus, George F., Shadmani, Leila, Spatafora, Joseph W., Stajich, Jason E., Tabima, Javier F., Walker, Donald M., McMahon, Katherine, Vargas-Gastélum, Lluvia, Romer, Alexander S., Ghotbi, Marjan, Dallas, Jason W., Alexander, N. Reed, Moe, Kylie C., McPhail, Kerry L., Neuhaus, George F., Shadmani, Leila, Spatafora, Joseph W., Stajich, Jason E., Tabima, Javier F., Walker, Donald M., and McMahon, Katherine

Abstract

Reptiles and amphibians (herptiles) are some of the most endangered and threatened species on the planet and numerous conservation strategies are being implemented with the goal of ensuring species recovery. Little is known, however, about the gut microbiome of wild herptiles and how it relates to the health of these populations. Here, we report results from the gut microbiome characterization of both a broad survey of herptiles, and the correlation between the fungus Basidiobolus, and the bacterial community supported by a deeper, more intensive sampling of Plethodon glutinosus, known as slimy salamanders. We demonstrate that bacterial communities sampled from frogs, lizards, and salamanders are structured by the host taxonomy and that Basidiobolus is a common and natural component of these wild gut microbiomes. Intensive sampling of multiple hosts across the ecoregions of Tennessee revealed that geography and host:geography interactions are strong predictors of distinct Basidiobolus operational taxonomic units present within a given host. Co-occurrence analyses of Basidiobolus and bacterial community diversity support a correlation and interaction between Basidiobolus and bacteria, suggesting that Basidiobolus may play a role in structuring the bacterial community. We further the hypothesis that this interaction is advanced by unique specialized metabolism originating from horizontal gene transfer from bacteria to Basidiobolus and demonstrate that Basidiobolus is capable of producing a diversity of specialized metabolites including small cyclic peptides.IMPORTANCEThis work significantly advances our understanding of biodiversity and microbial interactions in herptile microbiomes, the role that fungi play as a structural and functional members of herptile gut microbiomes, and the chemical functions that structure microbiome phenotypes. We also provide an important observational system of how the gut microbiome represents a unique environment that selects for novel

Published

2024

2. Herptile gut microbiomes: a natural system to study multi-kingdom interactions between filamentous fungi and bacteria

Author

Vargas-Gastélum, Lluvia, Romer, Alexander S., Ghotbi, Marjan, Dallas, Jason W., Alexander, N. Reed, Moe, Kylie C., McPhail, Kerry L., Neuhaus, George F., Shadmani, Leila, Spatafora, Joseph W., Stajich, Jason E., Tabima, Javier F., Walker, Donald M., McMahon, Katherine, Vargas-Gastélum, Lluvia, Romer, Alexander S., Ghotbi, Marjan, Dallas, Jason W., Alexander, N. Reed, Moe, Kylie C., McPhail, Kerry L., Neuhaus, George F., Shadmani, Leila, Spatafora, Joseph W., Stajich, Jason E., Tabima, Javier F., Walker, Donald M., and McMahon, Katherine

Abstract

Reptiles and amphibians (herptiles) are some of the most endangered and threatened species on the planet and numerous conservation strategies are being implemented with the goal of ensuring species recovery. Little is known, however, about the gut microbiome of wild herptiles and how it relates to the health of these populations. Here, we report results from the gut microbiome characterization of both a broad survey of herptiles, and the correlation between the fungus Basidiobolus, and the bacterial community supported by a deeper, more intensive sampling of Plethodon glutinosus, known as slimy salamanders. We demonstrate that bacterial communities sampled from frogs, lizards, and salamanders are structured by the host taxonomy and that Basidiobolus is a common and natural component of these wild gut microbiomes. Intensive sampling of multiple hosts across the ecoregions of Tennessee revealed that geography and host:geography interactions are strong predictors of distinct Basidiobolus operational taxonomic units present within a given host. Co-occurrence analyses of Basidiobolus and bacterial community diversity support a correlation and interaction between Basidiobolus and bacteria, suggesting that Basidiobolus may play a role in structuring the bacterial community. We further the hypothesis that this interaction is advanced by unique specialized metabolism originating from horizontal gene transfer from bacteria to Basidiobolus and demonstrate that Basidiobolus is capable of producing a diversity of specialized metabolites including small cyclic peptides.IMPORTANCEThis work significantly advances our understanding of biodiversity and microbial interactions in herptile microbiomes, the role that fungi play as a structural and functional members of herptile gut microbiomes, and the chemical functions that structure microbiome phenotypes. We also provide an important observational system of how the gut microbiome represents a unique environment that selects for novel

Published

2024

3. Herptile gut microbiomes: a natural system to study multi-kingdom interactions between filamentous fungi and bacteria

Author

Vargas-Gastélum, Lluvia, McMahon, Katherine1, Vargas-Gastélum, Lluvia, Romer, Alexander S, Ghotbi, Marjan, Dallas, Jason W, Alexander, N Reed, Moe, Kylie C, McPhail, Kerry L, Neuhaus, George F, Shadmani, Leila, Spatafora, Joseph W, Stajich, Jason E, Tabima, Javier F, Walker, Donald M, Vargas-Gastélum, Lluvia, McMahon, Katherine1, Vargas-Gastélum, Lluvia, Romer, Alexander S, Ghotbi, Marjan, Dallas, Jason W, Alexander, N Reed, Moe, Kylie C, McPhail, Kerry L, Neuhaus, George F, Shadmani, Leila, Spatafora, Joseph W, Stajich, Jason E, Tabima, Javier F, and Walker, Donald M

Abstract

Reptiles and amphibians (herptiles) are some of the most endangered and threatened species on the planet and numerous conservation strategies are being implemented with the goal of ensuring species recovery. Little is known, however, about the gut microbiome of wild herptiles and how it relates to the health of these populations. Here, we report results from the gut microbiome characterization of both a broad survey of herptiles, and the correlation between the fungus Basidiobolus, and the bacterial community supported by a deeper, more intensive sampling of Plethodon glutinosus, known as slimy salamanders. We demonstrate that bacterial communities sampled from frogs, lizards, and salamanders are structured by the host taxonomy and that Basidiobolus is a common and natural component of these wild gut microbiomes. Intensive sampling of multiple hosts across the ecoregions of Tennessee revealed that geography and host:geography interactions are strong predictors of distinct Basidiobolus operational taxonomic units present within a given host. Co-occurrence analyses of Basidiobolus and bacterial community diversity support a correlation and interaction between Basidiobolus and bacteria, suggesting that Basidiobolus may play a role in structuring the bacterial community. We further the hypothesis that this interaction is advanced by unique specialized metabolism originating from horizontal gene transfer from bacteria to Basidiobolus and demonstrate that Basidiobolus is capable of producing a diversity of specialized metabolites including small cyclic peptides.IMPORTANCEThis work significantly advances our understanding of biodiversity and microbial interactions in herptile microbiomes, the role that fungi play as a structural and functional members of herptile gut microbiomes, and the chemical functions that structure microbiome phenotypes. We also provide an important observational system of how the gut microbiome represents a unique environment that selects for novel

Published

2024

4. Analysis of the fecal microbiota of fast- and slow-growing rainbow trout (Oncorhynchus mykiss)

Author

Chapagain, Pratima, Chapagain, Pratima, Arivett, Brock, Cleveland, Beth M., Walker, Donald M., Salem, Mohamed, Chapagain, Pratima, Chapagain, Pratima, Arivett, Brock, Cleveland, Beth M., Walker, Donald M., and Salem, Mohamed

Abstract

Diverse microbial communities colonizing the intestine of fish contribute to their growth, digestion, nutrition, and immune function. We hypothesized that fecal samples representing the gut microbiota of rainbow trout could be associated with differential growth rates observed in fish breeding programs. If true, harnessing the functionality of this microbiota can improve the profitability of aquaculture. The first objective of this study was to test this hypothesis if gut microbiota is associated with fish growth rate (body weight). Four full-sibling families were stocked in the same tank and fed an identical diet. Two fast-growing and two slow-growing fish were selected from each family for 16S rRNA microbiota profiling.

Published

2019

5. A Comprehensive, Automatically Updated Fungal ITS Sequence Dataset for Reference-Based Chimera Control in Environmental Sequencing Efforts

Author

Nilsson, R. Henrik, Tedersoo, Leho, Ryberg, Martin, Kristiansson, Erik, Hartmann, Martin, Unterseher, Martin, Porter, Teresita M., Bengtsson-Palme, Johan, Walker, Donald M., De Sousa, Filipe, Gamper, Hannes Andres, Larsson, Ellen, Larsson, Karl-Henrik, Koljalg, Urmas, Edgar, Robert C., Abarenkov, Kessy, Nilsson, R. Henrik, Tedersoo, Leho, Ryberg, Martin, Kristiansson, Erik, Hartmann, Martin, Unterseher, Martin, Porter, Teresita M., Bengtsson-Palme, Johan, Walker, Donald M., De Sousa, Filipe, Gamper, Hannes Andres, Larsson, Ellen, Larsson, Karl-Henrik, Koljalg, Urmas, Edgar, Robert C., and Abarenkov, Kessy

Abstract

The nuclear ribosomal internal transcribed spacer (ITS) region is the most commonly chosen genetic marker for the molecular identification of fungi in environmental sequencing and molecular ecology studies. Several analytical issues complicate such efforts, one of which is the formation of chimeric-artificially joined-DNA sequences during PCR amplification or sequence assembly. Several software tools are currently available for chimera detection, but rely to various degrees on the presence of a chimera-free reference dataset for optimal performance. However, no such dataset is available for use with the fungal ITS region. This study introduces a comprehensive, automatically updated reference dataset for fungal ITS sequences based on the UNITE database for the molecular identification of fungi. This dataset supports chimera detection throughout the fungal kingdom and for full-length ITS sequences as well as partial (ITS1 or ITS2 only) datasets. The performance of the dataset on a large set of artificial chimeras was above 99.5%, and we subsequently used the dataset to remove nearly 1,000 compromised fungal ITS sequences from public circulation. The dataset is available at http://unite.ut.ee/repository.php and is subject to web-based third-party curation.

Published

2015

6. Recommendations of generic names in Diaporthales competing for protection or use

Author

Rossman, Amy Y, Adams, Gerard C, Cannon, Paul F, Castlebury, Lisa A, Crous, Pedro W, Gryzenhout, Marieka, Jaklitsch, Walter M, Mejia, Luis C, Stoykov, Dmitar, Udayanga, Dhanushka, Voglmayr, Hermann, Walker, Donald M, Rossman, Amy Y, Adams, Gerard C, Cannon, Paul F, Castlebury, Lisa A, Crous, Pedro W, Gryzenhout, Marieka, Jaklitsch, Walter M, Mejia, Luis C, Stoykov, Dmitar, Udayanga, Dhanushka, Voglmayr, Hermann, and Walker, Donald M

Abstract

In advancing to one name for fungi, this paper treats generic names competing for use in the order Diaporthales (Ascomycota, Sordariomycetes) and makes a recommendation for the use or protection of one generic name among synonymous names that may be either sexually or asexually typified. A table is presented that summarizes these recommendations. Among the genera most commonly encountered in this order, Cytospora is recommended over Valsa and Diaporthe over Phomopsis. New combinations are introduced for the oldest epithet of important species in the recommended genus. These include Amphiporthe tiliae, Coryneum lanciforme, Cytospora brevispora, C. ceratosperma, C. cinereostroma, C. eugeniae, C. fallax, C. myrtagena, Diaporthe amaranthophila, D. annonacearum, D. bougainvilleicola, D. caricae-papayae, D. cocoina, D. cucurbitae, D. juniperivora, D. leptostromiformis, D. pterophila, D. theae, D. vitimegaspora, Mastigosporella georgiana, Pilidiella angustispora, P. calamicola, P. pseudogranati, P. stromatica, and P. terminaliae.

Published

2015

7. Recommendations of generic names in Diaporthales competing for protection or use

Author

Rossman, Amy Y, Adams, Gerard C, Cannon, Paul F, Castlebury, Lisa A, Crous, Pedro W, Gryzenhout, Marieka, Jaklitsch, Walter M, Mejia, Luis C, Stoykov, Dmitar, Udayanga, Dhanushka, Voglmayr, Hermann, Walker, Donald M, Rossman, Amy Y, Adams, Gerard C, Cannon, Paul F, Castlebury, Lisa A, Crous, Pedro W, Gryzenhout, Marieka, Jaklitsch, Walter M, Mejia, Luis C, Stoykov, Dmitar, Udayanga, Dhanushka, Voglmayr, Hermann, and Walker, Donald M

Abstract

In advancing to one name for fungi, this paper treats generic names competing for use in the order Diaporthales (Ascomycota, Sordariomycetes) and makes a recommendation for the use or protection of one generic name among synonymous names that may be either sexually or asexually typified. A table is presented that summarizes these recommendations. Among the genera most commonly encountered in this order, Cytospora is recommended over Valsa and Diaporthe over Phomopsis. New combinations are introduced for the oldest epithet of important species in the recommended genus. These include Amphiporthe tiliae, Coryneum lanciforme, Cytospora brevispora, C. ceratosperma, C. cinereostroma, C. eugeniae, C. fallax, C. myrtagena, Diaporthe amaranthophila, D. annonacearum, D. bougainvilleicola, D. caricae-papayae, D. cocoina, D. cucurbitae, D. juniperivora, D. leptostromiformis, D. pterophila, D. theae, D. vitimegaspora, Mastigosporella georgiana, Pilidiella angustispora, P. calamicola, P. pseudogranati, P. stromatica, and P. terminaliae.

Published

2015

8. Finding needles in haystacks: linking scientific names, reference specimens and molecular data for Fungi

Author

Schoch, Conrad L., Robbertse, Barbara, Robert, Vincent, Duong Vu, [No Value], Cardinali, Gianluigi, Irinyi, Laszlo, Meyer, Wieland, Nilsson, R. Henrik, Hughes, Karen, Miller, Andrew N., Kirk, Paul M., Abarenkov, Kessy, Aime, M. Catherine, Ariyawansa, Hiran A., Bidartondo, Martin, Boekhout, Teun, Buyck, Bart, Cai, Qing, Chen, Jie, Crespo, Ana, Crous, Pedro W., Damm, Ulrike, De Beer, Z. Wilhelm, Dentinger, Bryn T. M., Divakar, Pradeep K., Duenas, Margarita, Feau, Nicolas, Fliegerova, Katerina, Garcia, Miguel A., Ge, Zai-Wei, Griffith, GarethW., Groenewald, Johannes Z., Groenewald, Marizeth, Grube, Martin, Gryzenhout, Marieka, Gueidan, Cecile, Guo, Liangdong, Hambleton, Sarah, Hamelin, Richard, Hansen, Karen, Hofstetter, Valerie, Hong, Seung-Beom, Houbraken, Jos, Hyde, Kevin D., Inderbitzin, Patrik, Johnston, Peter R., Karunarathna, Samantha C., Koljalg, Urmas, Kovacs, Gabor M., Kraichak, Ekaphan, Krizsan, Krisztina, Kurtzman, Cletus P., Larsson, Karl-Henrik, Leavitt, Steven, Letcher, Peter M., Liimatainen, Kare, Liu, Jian-Kui, Lodge, D. Jean, Luangsa-ard, Janet Jennifer, Lumbsch, H. Thorsten, Maharachchikumbura, Sajeewa S. N., Manamgoda, Dimuthu, Martin, Maria P., Minnis, Andrew M., Moncalvo, Jean-Marc, Mule, Giuseppina, Nakasone, Karen K., Niskanen, Tuula, Olariaga, Ibai, Papp, Tamas, Petkovits, Tamas, Pino-Bodas, Raquel, Powell, Martha J., Raja, Huzefa A., Redecker, Dirk, Sarmiento-Ramirez, J. M., Seifert, Keith A., Shrestha, Bhushan, Stenroos, Soili, Stielow, B., Suh, Sung-Oui, Tanaka, Kazuaki, Tedersoo, Leho, Teresa Telleria, M., Udayanga, Dhanushka, Untereiner, Wendy A., Dieguez Uribeondo, Javier, Subbarao, Krishna V., Vagvoelgyi, Csaba, Visagie, Cobus, Voigt, Kerstin, Walker, Donald M., Weir, Bevan S., Weiss, Michael, Wijayawardene, Nalin N., Wingfield, Michael J., Xu, J. P., Yang, Zhu L., Zhang, Ning, Zhuang, Wen-Ying, Federhen, Scott, Schoch, Conrad L., Robbertse, Barbara, Robert, Vincent, Duong Vu, [No Value], Cardinali, Gianluigi, Irinyi, Laszlo, Meyer, Wieland, Nilsson, R. Henrik, Hughes, Karen, Miller, Andrew N., Kirk, Paul M., Abarenkov, Kessy, Aime, M. Catherine, Ariyawansa, Hiran A., Bidartondo, Martin, Boekhout, Teun, Buyck, Bart, Cai, Qing, Chen, Jie, Crespo, Ana, Crous, Pedro W., Damm, Ulrike, De Beer, Z. Wilhelm, Dentinger, Bryn T. M., Divakar, Pradeep K., Duenas, Margarita, Feau, Nicolas, Fliegerova, Katerina, Garcia, Miguel A., Ge, Zai-Wei, Griffith, GarethW., Groenewald, Johannes Z., Groenewald, Marizeth, Grube, Martin, Gryzenhout, Marieka, Gueidan, Cecile, Guo, Liangdong, Hambleton, Sarah, Hamelin, Richard, Hansen, Karen, Hofstetter, Valerie, Hong, Seung-Beom, Houbraken, Jos, Hyde, Kevin D., Inderbitzin, Patrik, Johnston, Peter R., Karunarathna, Samantha C., Koljalg, Urmas, Kovacs, Gabor M., Kraichak, Ekaphan, Krizsan, Krisztina, Kurtzman, Cletus P., Larsson, Karl-Henrik, Leavitt, Steven, Letcher, Peter M., Liimatainen, Kare, Liu, Jian-Kui, Lodge, D. Jean, Luangsa-ard, Janet Jennifer, Lumbsch, H. Thorsten, Maharachchikumbura, Sajeewa S. N., Manamgoda, Dimuthu, Martin, Maria P., Minnis, Andrew M., Moncalvo, Jean-Marc, Mule, Giuseppina, Nakasone, Karen K., Niskanen, Tuula, Olariaga, Ibai, Papp, Tamas, Petkovits, Tamas, Pino-Bodas, Raquel, Powell, Martha J., Raja, Huzefa A., Redecker, Dirk, Sarmiento-Ramirez, J. M., Seifert, Keith A., Shrestha, Bhushan, Stenroos, Soili, Stielow, B., Suh, Sung-Oui, Tanaka, Kazuaki, Tedersoo, Leho, Teresa Telleria, M., Udayanga, Dhanushka, Untereiner, Wendy A., Dieguez Uribeondo, Javier, Subbarao, Krishna V., Vagvoelgyi, Csaba, Visagie, Cobus, Voigt, Kerstin, Walker, Donald M., Weir, Bevan S., Weiss, Michael, Wijayawardene, Nalin N., Wingfield, Michael J., Xu, J. P., Yang, Zhu L., Zhang, Ning, Zhuang, Wen-Ying, and Federhen, Scott

Published

2014

9. Finding needles in haystacks: linking scientific names, reference specimens and molecular data for Fungi

Author

Schoch, Conrad L., Robbertse, Barbara, Robert, Vincent, Duong Vu, [No Value], Cardinali, Gianluigi, Irinyi, Laszlo, Meyer, Wieland, Nilsson, R. Henrik, Hughes, Karen, Miller, Andrew N., Kirk, Paul M., Abarenkov, Kessy, Aime, M. Catherine, Ariyawansa, Hiran A., Bidartondo, Martin, Boekhout, Teun, Buyck, Bart, Cai, Qing, Chen, Jie, Crespo, Ana, Crous, Pedro W., Damm, Ulrike, De Beer, Z. Wilhelm, Dentinger, Bryn T. M., Divakar, Pradeep K., Duenas, Margarita, Feau, Nicolas, Fliegerova, Katerina, Garcia, Miguel A., Ge, Zai-Wei, Griffith, GarethW., Groenewald, Johannes Z., Groenewald, Marizeth, Grube, Martin, Gryzenhout, Marieka, Gueidan, Cecile, Guo, Liangdong, Hambleton, Sarah, Hamelin, Richard, Hansen, Karen, Hofstetter, Valerie, Hong, Seung-Beom, Houbraken, Jos, Hyde, Kevin D., Inderbitzin, Patrik, Johnston, Peter R., Karunarathna, Samantha C., Koljalg, Urmas, Kovacs, Gabor M., Kraichak, Ekaphan, Krizsan, Krisztina, Kurtzman, Cletus P., Larsson, Karl-Henrik, Leavitt, Steven, Letcher, Peter M., Liimatainen, Kare, Liu, Jian-Kui, Lodge, D. Jean, Luangsa-ard, Janet Jennifer, Lumbsch, H. Thorsten, Maharachchikumbura, Sajeewa S. N., Manamgoda, Dimuthu, Martin, Maria P., Minnis, Andrew M., Moncalvo, Jean-Marc, Mule, Giuseppina, Nakasone, Karen K., Niskanen, Tuula, Olariaga, Ibai, Papp, Tamas, Petkovits, Tamas, Pino-Bodas, Raquel, Powell, Martha J., Raja, Huzefa A., Redecker, Dirk, Sarmiento-Ramirez, J. M., Seifert, Keith A., Shrestha, Bhushan, Stenroos, Soili, Stielow, B., Suh, Sung-Oui, Tanaka, Kazuaki, Tedersoo, Leho, Teresa Telleria, M., Udayanga, Dhanushka, Untereiner, Wendy A., Dieguez Uribeondo, Javier, Subbarao, Krishna V., Vagvoelgyi, Csaba, Visagie, Cobus, Voigt, Kerstin, Walker, Donald M., Weir, Bevan S., Weiss, Michael, Wijayawardene, Nalin N., Wingfield, Michael J., Xu, J. P., Yang, Zhu L., Zhang, Ning, Zhuang, Wen-Ying, Federhen, Scott, Schoch, Conrad L., Robbertse, Barbara, Robert, Vincent, Duong Vu, [No Value], Cardinali, Gianluigi, Irinyi, Laszlo, Meyer, Wieland, Nilsson, R. Henrik, Hughes, Karen, Miller, Andrew N., Kirk, Paul M., Abarenkov, Kessy, Aime, M. Catherine, Ariyawansa, Hiran A., Bidartondo, Martin, Boekhout, Teun, Buyck, Bart, Cai, Qing, Chen, Jie, Crespo, Ana, Crous, Pedro W., Damm, Ulrike, De Beer, Z. Wilhelm, Dentinger, Bryn T. M., Divakar, Pradeep K., Duenas, Margarita, Feau, Nicolas, Fliegerova, Katerina, Garcia, Miguel A., Ge, Zai-Wei, Griffith, GarethW., Groenewald, Johannes Z., Groenewald, Marizeth, Grube, Martin, Gryzenhout, Marieka, Gueidan, Cecile, Guo, Liangdong, Hambleton, Sarah, Hamelin, Richard, Hansen, Karen, Hofstetter, Valerie, Hong, Seung-Beom, Houbraken, Jos, Hyde, Kevin D., Inderbitzin, Patrik, Johnston, Peter R., Karunarathna, Samantha C., Koljalg, Urmas, Kovacs, Gabor M., Kraichak, Ekaphan, Krizsan, Krisztina, Kurtzman, Cletus P., Larsson, Karl-Henrik, Leavitt, Steven, Letcher, Peter M., Liimatainen, Kare, Liu, Jian-Kui, Lodge, D. Jean, Luangsa-ard, Janet Jennifer, Lumbsch, H. Thorsten, Maharachchikumbura, Sajeewa S. N., Manamgoda, Dimuthu, Martin, Maria P., Minnis, Andrew M., Moncalvo, Jean-Marc, Mule, Giuseppina, Nakasone, Karen K., Niskanen, Tuula, Olariaga, Ibai, Papp, Tamas, Petkovits, Tamas, Pino-Bodas, Raquel, Powell, Martha J., Raja, Huzefa A., Redecker, Dirk, Sarmiento-Ramirez, J. M., Seifert, Keith A., Shrestha, Bhushan, Stenroos, Soili, Stielow, B., Suh, Sung-Oui, Tanaka, Kazuaki, Tedersoo, Leho, Teresa Telleria, M., Udayanga, Dhanushka, Untereiner, Wendy A., Dieguez Uribeondo, Javier, Subbarao, Krishna V., Vagvoelgyi, Csaba, Visagie, Cobus, Voigt, Kerstin, Walker, Donald M., Weir, Bevan S., Weiss, Michael, Wijayawardene, Nalin N., Wingfield, Michael J., Xu, J. P., Yang, Zhu L., Zhang, Ning, Zhuang, Wen-Ying, and Federhen, Scott

Published

2014