Centre for Crop Health (Operations)
| University | Centre for Crop Health |
|---|---|
| Head | Prof Levente Kiss |
| Director of Research | Prof Levente Kiss |
Latest research outputs
456 results found
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Host filtering, not competitive exclusion, may be the main driver of arbuscular mycorrhizal fungal community assembly under high phosphorus
Frew, Adam, Heuck, Meike and Aguilar-Trigueros, Carlos A.. 2023. "Host filtering, not competitive exclusion, may be the main driver of arbuscular mycorrhizal fungal community assembly under high phosphorus." Functional Ecology. 37 (7), pp. 1856-1869. https://doi.org/10.1111/1365-2435.14349Article
Australia offers unique insight into the ecology of arbuscular mycorrhizal fungi: An opportunity not to be lost
Frew, Adam and Aguilar-Trigueros, Carlos A.. 2023. "Australia offers unique insight into the ecology of arbuscular mycorrhizal fungi: An opportunity not to be lost." Austral Ecology: a journal of ecology in the Southern Hemisphere. 48 (8), pp. 1713-1720. https://doi.org/10.1111/aec.13451Article
Multi-locus genome-wide association study of chickpea reference set identifies genetic determinants of Pratylenchus thornei resistance
Channale, Sonal, Thompson, John P., Varshney, Rajeev K., Thudi, Mahendar and Zwart, Rebecca S.. 2023. "Multi-locus genome-wide association study of chickpea reference set identifies genetic determinants of Pratylenchus thornei resistance." Frontiers in Plant Science. 14. https://doi.org/10.3389/fpls.2023.1139574Article
Water availability alters the community structure of arbuscular mycorrhizal fungi and determines plant mycorrhizal benefit
Frew, Adam. 2023. "Water availability alters the community structure of arbuscular mycorrhizal fungi and determines plant mycorrhizal benefit." Plants, People, Planet. 5 (5), pp. 683-689. https://doi.org/10.1002/ppp3.10372Article
Silicon accumulation suppresses arbuscular mycorrhizal fungal colonisation in the model grass Brachypodium distachyon
Johnson, Scott N., Powell, Jef R., Frew, Adam and Cibils–Stewart, Ximena. 2022. "Silicon accumulation suppresses arbuscular mycorrhizal fungal colonisation in the model grass Brachypodium distachyon." Plant and Soil: international journal on plant-soil relationships. 477 (1-2), pp. 219-232. https://doi.org/10.1007/s11104-022-05463-9Article
Phenotypic and genotypic diversity of Puccinia sorghi in Eastern Australia: implications for maize breeding programs
Quade, Aurelie, Park, Robert F., Stodart, Benjamin, Ding, Yi, Zhang, Peng, Thang, Mike, Poudel, Barsha, Vaghefi, Niloofar and Ash, Gavin James. 2023. "Phenotypic and genotypic diversity of Puccinia sorghi in Eastern Australia: implications for maize breeding programs ." PhytoFrontiers. 3 (3), pp. 610-618. https://doi.org/10.1094/PHYTOFR-12-22-0151-RArticle
Peronosclerospora neglecta sp. nov.—a widespread and overlooked threat to corn (maize) production in the tropics
Muis, Amran, Ryley, Malcolm J., Tan, Yu Pei, Suharjo, Radix, Nonci, Nurnina, Danaatmadja, Yanuar, Hidayat, Iman, Widiastuti, Ani, Widinugraheni, Sri, Shivas, Roger G. and Thines, Marco. 2023. "Peronosclerospora neglecta sp. nov.—a widespread and overlooked threat to corn (maize) production in the tropics ." Mycological Progress: international journal of fungal sciences. 22 (2). https://doi.org/10.1007/s11557-022-01862-5Article
Evidence for the plant recruitment of beneficial microbes to suppress soil‐borne pathogens
Liu, Hongwei, Li, Jiayu, Carvalhais, Lilia C., Percy, Cassandra D., Verma, Jay Prakash, Schenk, Peer M. and Singh, Brajesh K.. 2021. "Evidence for the plant recruitment of beneficial microbes to suppress soil‐borne pathogens." New Phytologist. 229 (5), pp. 2873-2885. https://doi.org/10.1111/nph.17057Article
Cryptic diversity found in Didymellaceae from Australian native legumes
Keirnan, Elizabeth C., Tan, Yu Pei, Laurence, Matthew H., Mertin, Allison A., Liew, Edward C. Y., Summerell, Brett A. and Shivas, Roger G.. 2021. "Cryptic diversity found in Didymellaceae from Australian native legumes." MycoKeys. 78, pp. 1-20. https://doi.org/10.3897/mycokeys.78.60063Article
Fusarium pseudograminearum and F. culmorum affect the root system architecture of bread wheat
Saad, Ahmed, Christopher, Jack, Martin, Anke, McDonald, Stephen and Percy, Cassandra. 2023. "Fusarium pseudograminearum and F. culmorum affect the root system architecture of bread wheat." The Crop Journal. 11 (1), pp. 316-321. https://doi.org/10.1016/j.cj.2022.08.013Article
The diversity of microfungi associated with grasses in the Sporobolus indicus complex in Queensland, Australia
Steinrucken, Tracey V., Vitelli, Joseph S., Holdom, David G. and Tan, Yu Pei. 2022. "The diversity of microfungi associated with grasses in the Sporobolus indicus complex in Queensland, Australia." Frontiers in Fungal Biology. 3, pp. 1-18. https://doi.org/10.3389/ffunb.2022.956837Article
Investigation of Two QTL Conferring Seedling Resistance to Fusarium Crown Rot in Barley on Reducing Grain Yield Loss under Field Environments
Zheng, Zhi, Powell, Jonathan, Gao, Shang, Percy, Cassandra, Kelly, Alison, Macdonald, Bethany, Zhou, Meixue, Davies, Philip and Liu, Chunji. 2022. "Investigation of Two QTL Conferring Seedling Resistance to Fusarium Crown Rot in Barley on Reducing Grain Yield Loss under Field Environments." Agronomy. 12 (6), pp. 1-14. https://doi.org/10.3390/agronomy12061282Article
IMA Genome - F16 Draft genome assemblies of Fusarium marasasianum, Huntiella abstrusa, two Immersiporthe knoxdaviesiana isolates, Macrophomina pseudophaseolina, Macrophomina phaseolina, Naganishia randhawae, and Pseudocercospora cruenta
Wingfield, Brenda D., De Vos, Lieschen, Wilson, Andi M., Duong, Tuan A., Vaghefi, Niloofar, Botes, Angela, Kharwar, Ravindra Nath, Chand, Ramesh, Poudel, Barsha, Aliyu, Habibu, Barbetti, Martin J., Chen, ShuaiFei, de Maayer, Pieter, Liu, FeiFei, Navathe, Sudhir, Sinha, Shagun, Steenkamp, Emma T., Suzuki, Hiroyuki, Tshisekedi, Kalonji A., ..., Wingfield, Michael J.. 2022. "IMA Genome - F16 Draft genome assemblies of Fusarium marasasianum, Huntiella abstrusa, two Immersiporthe knoxdaviesiana isolates, Macrophomina pseudophaseolina, Macrophomina phaseolina, Naganishia randhawae, and Pseudocercospora cruenta." IMA Fungus: the global mycological journal. 13 (1), pp. 1-22. https://doi.org/10.1186/s43008-022-00089-zArticle
Winter Cereal Reactions to Common Root Rot and Crown Rot Pathogens in the Field
Saad, Ahmed, Macdonald, Bethany, Martin, Anke, Knight, Noel L. and Percy, Cassandra. 2022. "Winter Cereal Reactions to Common Root Rot and Crown Rot Pathogens in the Field." Agronomy. 12 (10), pp. 1-18. https://doi.org/10.3390/agronomy12102571Article
Fungal Planet description sheets: 1383–1435
Crous, P. W., Boers, J., Holdom, D., Osieck, E. R., Steinrucken, T. V., Tan, Y. P., Vitelli, J. S., Shivas, R. G., Barrett, M., Broadbridge, J., Larsson, E., Lebel, T., Pinruan, U., Sommai, S., Alvarado, P., Bonito, G., Decock, C. A., De la Pena-Lastra, S., Delgado, G., ..., Groenewald, J. Z.. 2022. "Fungal Planet description sheets: 1383–1435." Persoonia. 48, pp. 1-153. https://doi.org/10.3767/persoonia.2022.48.08Article
Research priorities for global food security under extreme events
Mehrabi, Zia, Delzeit, Ruth, Ignaciuk, Adriana, Levers, Christian, Braich, Ginni, Bajaj, Kushank, Amo-Aidoo, Araba, Anderson, Weston, Balgah, Roland A., Benton, Tim G., Chari, Martin M., Ellis, Erle C., Gahi, Narcisse, Gaupp, Franziska, Garibaldi, Lucas A., Gerber, James S., Godde, Cecile M., Grass, Ingo, Heimann, Tobias, ..., You, Liangzhi. 2022. "Research priorities for global food security under extreme events." One Earth. 5 (7), pp. 756-766. https://doi.org/10.1016/j.oneear.2022.06.008Article
Cereal and Pulse Crops with Improved Resistance to Pratylenchus thornei Are Needed to Maximize Wheat Production and Expand Crop Sequence Options
Owen, Kirsty J., Clewett, Timothy G., Bell, Kerry L. and Thompson, John P. 2022. "Cereal and Pulse Crops with Improved Resistance to Pratylenchus thornei Are Needed to Maximize Wheat Production and Expand Crop Sequence Options." Agronomy. 12 (3), pp. 1-16. https://doi.org/10.3390/agronomy12030573Article
The role of nutrients underlying interactions among root‑nodule bacteria (Bradyrhizobium sp.), arbuscular mycorrhizal fungi (Funneliformis mosseae) and root‑lesion nematodes (Pratylenchus thornei) in nitrogen fixation and growth of mung bean (Vigna radiata)
Gough, E. C., Owen, K. J., Zwart, R. S. and Thompson, J. P.. 2022. "The role of nutrients underlying interactions among root‑nodule bacteria (Bradyrhizobium sp.), arbuscular mycorrhizal fungi (Funneliformis mosseae) and root‑lesion nematodes (Pratylenchus thornei) in nitrogen fixation and growth of mung bean (Vigna radiata)." Plant and Soil: international journal on plant-soil relationships. 472 (1-2), pp. 421-449. https://doi.org/10.1007/s11104-021-05254-8Article
First Draft Genome Assemblies of Pleochaeta shiraiana and Phyllactinia moricola, Two Tree-Parasitic Powdery Mildew Fungi with Hemiendophytic Mycelia
Kusch, Stefan, Vaghefi, Niloofar, Takamatsu, Susumu, Liu, Shu-Yan, Nemeth, Mark Z., Seress, Diana, Frantzeskakis, Lamprinos, Chiu, Pin-En, Panstruga, Ralph and Kiss, Levente. 2022. "First Draft Genome Assemblies of Pleochaeta shiraiana and Phyllactinia moricola, Two Tree-Parasitic Powdery Mildew Fungi with Hemiendophytic Mycelia." Phytopathology: International Journal of the American Phytopathological Society. 112 (4), pp. 961-967. https://doi.org/10.1094/PHYTO-08-21-0337-AArticle
NIR sensing and machine learning to rapidly assess crown rot in wheat
Humpal, Jacob, McCarthy, Cheryl, Percy, Cassandra and Thomasson, J. Alex. 2020. "NIR sensing and machine learning to rapidly assess crown rot in wheat." GRDC Grains Research Update: Driving Profit Through Research. Goondiwindi, Australia 03 - 04 Mar 2020 Australia.Paper
Detection of crown rot in wheat utilising near-infrared spectroscopy: towards remote and robotic sensing
Humpal, Jacob, McCarthy, Cheryl, Percy, Cassy and Thomasson, J. Alex. 2020. "Detection of crown rot in wheat utilising near-infrared spectroscopy: towards remote and robotic sensing." Thomasson, J. Alex and Torres-Rua, Alfonso F. (ed.) Autonomous Air and Ground Sensing Systems for Agricultural Optimization and Phenotyping V (SPIE 2020). Online 27 Apr - 08 May 2020 United States. https://doi.org/10.1117/12.2557949Paper
Machine vision learning for crop disease and quality parameters
Humpal, Jacob, McCarthy, Cheryl, Thomasson, J. Alex and Percy, Cassy. 2018. "Machine vision learning for crop disease and quality parameters." 21st Precision Agriculture Symposium (2018). Adelaide, Australia Australia.Presentation
Space Agriculture: Sensing Crops in Space
Humpal, Jacob, McCarthy, Cheryl, Baillie, Craig, Percy, Cassy and Brett, Peter. 2022. "Space Agriculture: Sensing Crops in Space." GRDC Update Papers.Article
Summer crop disease breakthroughs
Kelly, Lisa, Owen, Kirsty, Sharman, Murray, Vukovic, Peter and Adorada, Dante L.. 2021. "Summer crop disease breakthroughs." GroundCover.Article
The First Annotated Genome Assembly of Macrophomina tecta Associated with Charcoal Rot of Sorghum
Poudel, Barsha, Purushotham, Neeraj, Jones, Ashley, Nasim, Jamila, Adorada, Dante L., Sparks, Adam H., Schwessinger, Benjamin and Vaghefi, Niloofar. 2022. "The First Annotated Genome Assembly of Macrophomina tecta Associated with Charcoal Rot of Sorghum." Genome Biology and Evolution. 14 (6), pp. 1-7. https://doi.org/10.1093/gbe/evac081Article
Magnaporthiopsis species associated with patch diseases of turfgrasses in Australia
Wong, P. T. W., Tan, Y. P., Weese, T. L. and Shivas, R. G.. 2022. "Magnaporthiopsis species associated with patch diseases of turfgrasses in Australia." Mycosphere Online: Journal of Fungal Biology. 13 (1), pp. 602-611. https://doi.org/10.5943/mycosphere/13/1/5Article
Fusarium and allied fusarioid taxa (FUSA). 1
Crous, P. W., Sandoval-Denis, M., Costa, M. M., Groenewald, J. Z., van Iperen, A. L., Starink-Willemse, M., Hernandez-Restrepo, M., Kandemir, H., Ulaszewski, B., de Boer, W., Abdel-Azeem, A. M., Abdollahzadeh, J., Akulov, A., Bakhshi, M., Bezerra, J. D. P., Bhunjun, C. S., Camara, M. P. S., Chaverri, P., Vieira, W. A. S., ..., Thines, M.. 2022. "Fusarium and allied fusarioid taxa (FUSA). 1." Fungal Systematics and Evolution. 9, pp. 161-200. https://doi.org/10.3114/fuse.2022.09.08Article
Impacts and Management of Temperature and Water Stress in Crop Plants
Arun-Chinnappa, Kiruba Shankari, Ranawake, Lanka and Seneweera, Saman. 2017. "Impacts and Management of Temperature and Water Stress in Crop Plants." Minhas, Paramjit Singh, Rane, Jagadish and Pasala, Ratna Kumar (ed.) Abiotic Stress Management for Resilient Agriculture. Singapore. Springer. pp. 221-233Edited book (chapter)
More than meets the eye — unexpected diversity in downy mildews (Oomycetes) on grasses in Australia
Ryley, M. J., Tan, Y. P., Kruse, J., Thines, M. and Shivas, R. G.. 2022. "More than meets the eye — unexpected diversity in downy mildews (Oomycetes) on grasses in Australia." Mycological Progress: international journal of fungal sciences. 21 (1), pp. 297-310. https://doi.org/10.1007/s11557-021-01750-4Article
Plant pathogens as indicators of climate change
Garrett, K. A., Nita, M., De Wolf, E. D., Esker, P. D., Gomez-Montano, L. and Sparks, A. H.. 2021. "Plant pathogens as indicators of climate change." Letcher, Trevor M. (ed.) Climate Change: Observed Impacts on Planet Earth. Netherlands. Elsevier. pp. 499-513Edited book (chapter)
Species diversity of Basidiomycota
He, Mao‑Qiang, Zhao, Rui‑Lin, Liu, Dong‑Mei, Denchev, Teodor T., Begerow, Dominik, Yurkov, Andrey, Kemler, Martin, Millanes, Ana M., Wedin, Mats, McTaggart, Alistair R., Shivas, Roger G., Buyck, Bart, Chen, Jie, Vizzini, Alfredo, Papp, Viktor, Zmitrovich, Ivan V., Davoodian, Naveed and Hyde, Kevin D.. 2022. "Species diversity of Basidiomycota." Fungal Diversity. https://doi.org/10.1007/s13225-021-00497-3Article
Plan of attack for aggressive Ascochyta isolates
Ford, Rebecca, Sambasivam, Prabhakaran, Mehmood, Yasir, Christie, Melody, Vaghefi, Niloofar, Sparks, Adam and Bar, Ido. 2021. "Plan of attack for aggressive Ascochyta isolates." GRDC GroundCover.Article
An improved method for selection of wheat genotypes for tolerance to crown rot caused by Fusarium pseudograminearum
Kelly, Alison, Macdonald, Bethany, Percy, Cassandra and Davies, Philip. 2021. "An improved method for selection of wheat genotypes for tolerance to crown rot caused by Fusarium pseudograminearum." Journal of Phytopathology. 169 (6), pp. 339-349. https://doi.org/10.1111/jph.12970Article
Population genomics reveals historical and ongoing recombination in the Fusarium oxysporum species complex
McTaggart, A. R., James, T. Y., Shivas, R. G., Drenth, A., Wingfield, B. D., Summerell, B. A. and Duong, T. A.. 2021. "Population genomics reveals historical and ongoing recombination in the Fusarium oxysporum species complex." Studies in Mycology. 99, pp. 1-11. https://doi.org/10.1016/j.simyco.2021.100132Article
Fungal diversity notes 1387–1511: taxonomic and phylogenetic contributions on genera and species of fungal taxa
Boonmee, Saranyaphat, Wanasinghe, Dhanushka N., Calabon, Mark S., Huanraluek, Naruemon, Chandrasiri, Sajini K. U., Jones, Gareth E. B., Rossi, Walter, Leonardi, Marco, Singh, Sanjay K., Rana, Shiwali, Singh, Paras N., Maurya, Deepak K., Lagashetti, Ajay C., Choudhary, Deepika, Dai, Yu‑Cheng, Zhao, Chang‑Lin, Mu, Yan‑Hong, Yuan, Hai‑Sheng, He, Shuang‑Hui, ..., Hyde, Kevin D.. 2021. "Fungal diversity notes 1387–1511: taxonomic and phylogenetic contributions on genera and species of fungal taxa." Fungal Diversity. 111 (1), pp. 1-335. https://doi.org/10.1007/s13225-021-00489-3Article
Genomic resources in plant breeding for sustainable agriculture
Thudi, Mahendar, Palakurthi, Ramesh, Schnable, James C., Chitikineni, Annapurna, Dreisigacker, Susanne, Mace, Emma, Srivastava, Rakesh K., Satyavathi, C. Tara, Odeny, Damaris, Tiwari, Vijay K., Lam, Hon-Ming, Hong, Yan Bin, Singh, Vikas K., Li, Guowei, Xu, Yunbi, Chen, Xiaoping, Kaila, Sanjay, Nguyen, Henry, Sivasankar, Sobhana, ..., Varshney, Rajeev K.. 2021. "Genomic resources in plant breeding for sustainable agriculture." Journal of Plant Physiology. 257, pp. 1-18. https://doi.org/10.1016/j.jplph.2020.153351Article
Neopestalotiopsis Species Associated with Flower Diseases of Macadamia integrifolia in Australia
Prasannath, Kandeeparoopan, Shivas, Roger G., Galea, Victor J. and Akinsanmi, Olufemi A.. 2021. "Neopestalotiopsis Species Associated with Flower Diseases of Macadamia integrifolia in Australia." Journal of Fungi. 7 (9), pp. 1-17. https://doi.org/10.3390/jof7090771Article
Novel Botrytis and Cladosporium Species Associated with Flower Diseases of Macadamia in Australia
Prasannath, Kandeeparoopan, Shivas, Roger G., Galea, Victor J. and Akinsanmi, Olufemi A.. 2021. "Novel Botrytis and Cladosporium Species Associated with Flower Diseases of Macadamia in Australia." Journal of Fungi. 7 (11), pp. 1-17. https://doi.org/10.3390/jof7110898Article
Major QTLs and Potential Candidate Genes for Heat Stress Tolerance Identified in Chickpea (Cicer arietinum L.)
Jha, Uday Chand, Nayyar, Harsh, Palakurthi, Ramesh, Jha, Rintu, Valluri, Vinod, Bajaj, Prasad, Chitikineni, Annapurna, Singh, Narendra P., Varshney, Rajeev K. and Thudi, Mahendar. 2021. "Major QTLs and Potential Candidate Genes for Heat Stress Tolerance Identified in Chickpea (Cicer arietinum L.)." Frontiers in Plant Science. 12, pp. 1-16. https://doi.org/10.3389/fpls.2021.655103Article
MutMap Approach Enables Rapid Identification of Candidate Genes and Development of Markers Associated With Early Flowering and Enhanced Seed Size in Chickpea (Cicer arietinum L.)
Manchikatla, Praveen Kumar, Kalavikatte, Danamma, Mallikarjuna, Bingi Pujari, Palakurthi, Ramesh, Khan, Aamir W., Jha, Uday Chand, Bajaj, Prasad, Singam, Prashant, Chitikineni, Annapurna, Varshney, Rajeev K. and Thudi, Mahandar. 2021. "MutMap Approach Enables Rapid Identification of Candidate Genes and Development of Markers Associated With Early Flowering and Enhanced Seed Size in Chickpea (Cicer arietinum L.)." Frontiers in Plant Science. 12, pp. 1-11. https://doi.org/10.3389/fpls.2021.688694Article
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