Tropical crops have a tremendous impact on global food systems and are well represented in Hawaii. There are many different diseases (bacterial/viral/fungal) that can impact yields. In this session, we invite an audience from a broad pool of research interests and backgrounds to attend and learn about a range of food and forestry crops that are important in Hawaii, including papaya, sweetpotato, the native koa tree and banana and the production systems unique to these crops. The wide range of crops from tuber, to fruit, to forestry has led to a variety of challenges that have attracted less attention compared to pathology problems associated with temperate crops. Topic presentations in these areas will be presented by and from the perspective of university, non-profit, and USDA ARS researchers and a local commercial grower and will be followed by a panel discussion aimed at highlighting the many different techniques that have been used to overcome these challenges and how they are relevant to the broader agricultural research and commercial production sectors. Through these facilitated topic discussions, we hope to convey the scope of tropical diseases that occur as well as how to overcome them given different crop-specific constraints and their relevance to climate change.
The goal of the workshop is attract and engage a wide audience both outside as well as those working in tropical horticulture and to educate and bring together different perspectives of university and federal scientists, extension educators, graduate students, post-docs and industry on the current status of pathology problems that occur in various tropical crops in Hawaii. The workshop will discuss the approach and options used in different specialty crops to address the multitude of pathogens that threaten tropical crop production, the importance of germplasm collections, and successful strategies for the future in the face of global climate change. Information and exchange through panel discussion from presenters supporting agriculture and the public representing different entities including various research organizations and a producer, will highlight contributions from the different sectors and their unique and common perspectives and cross synergies. Through these talks and discussions, we hope to convey the scope of tropical diseases that occur as well as how to overcome them given different crop-specific constraints. We aim to highlight these successful strategies and their relevance to a broader sector of agriculture and to future research on emerging problems impacting temperate and other regions due to climate change.
Coordinator(s)
Jon Suzuki, USDA ARS DKI U.S. PBARC, Hilo, HI, United States
Participants:
Dr. Nathan Fumia (HARC - Hawaii Agricultural Research Center) – Understanding the role of selection on fungal disease tolerance in Acacia koa, an endemic Hawaiian hardwood (8 minutes).
A common occurrence during neo-domestication is the interplay of traits such as seedling vigor and disease resistance. The focus of this study is the effect of crossing on a wild species being selected for a domesticated form, including decisions such as number of parents, number of crosses, and number of progeny. Our aim is to begin breeding scheme development for wild species (neo-domestication) using Acacia koa as a novel study system. Breeding population size was changed in the koa orchard through thinning of individuals, a form of pollen control in the population, with the major criterion being a low durability of resistance where trees succumb to disease over time, caused by Fusarium oxysporum. This is an opportunity for insight during the development of expectations in population improvement through augmented crossing parameters, informing situational changes through breeding cycles in neo-domestication programs.
Dr. Anna McCormick (University of Hawaii at Manoa) – Examining viral presence in collections of Hawaiian heirloom sweetpotato varieties (8 minutes).
Sweetpotato has been a staple crop in the Hawaiian Islands since Polynesians settled the islands ~1,200 years ago. Previous work has established that Hawaiian Heirloom sweet potato varieties represent unique germplasm that are more closely related to each other than varieties from other parts of the world. While much work has been done characterizing Hawaiian heirloom plant genetics, much less work has been done characterizing viral genetic presence and diversity. In this study we explored viral presence across an extant collection of 70 Hawaiian heirloom varieties sourced from five different botanical collections over three Islands (O’ahu, Maui and Big Island Hawai’i). Samples were examined for the presence of four viruses from the family Potyviridae namely; Sweet potato virus G (SPVG), Sweet potato virus C (SPVC), Sweet potato virus 2 (SPV2), Sweet potato feathery mottle virus (SPFMV), and one from the family Geminiviridae; Sweet potato leaf curl virus (SPLCV). We found high levels of virus across all collections, including many instances of double and triple infections. These findings have large implications for conservation and local fresh markets.
Dr. Mark Shankle (Mississippi State University) – Research and discovery of best practices for U.S. sweetpotato clean foundation seed (CFS) programs. (8 minutes)
Sweetpotato is an important crop for the U.S. and worldwide. Infection by viruses which accumulate over time in this and numerous other major perennial crops cause major yield losses annually. The problems in sweet potato are being addressed through Sweetpotato CleanSEED, a multi-state, transdisciplinary funded research project funded by a USDA-NIFA-SCRI grant to develop strategies that improve sweetpotato crop health and yield through developing quality control standards for producing clean foundation seed, improved detection methods, identification of undiscovered viral diseases, and development of cultural practices for efficient clean foundation seed production in both the laboratory and greenhouse to reduce disease transmission in this clonally propagated crop.
Ryan Domingo (USDA ARS U.S Pacific Basin Agricultural Research Center) - Identifying Carica papaya cultivars demonstrating increased partial resistance towards Phytophthora palmivora utilizing a novel rapid phenotyping assay. (8 minutes)
Extensive production loss and mortality of Carica papaya is associated with Phytophthora palmivora in Hawaii and other papaya growing regions of the world. Currently there is no commercial papaya cultivar fully resistant against P. palmivora, however it is important to identify those that contain partial resistance reducing pathogen proliferation. This talk will explore a novel rapid phenotyping assay quantifying P. palmivora growth along papaya seedling stems comparing several genotypes within the USDA germplasm collection. Implications resulting from this study provides farmers, breeders and other stakeholders insight towards cultivars displaying increased partial tolerance towards P. palmivora.
Gabriel Sachter-Smith (Hawaii Banana Source) - Maintaining commercial vitality of the banana industry through germplasm resources and strategies to mitigate disease (8 minutes).
Bananas have been grown in Hawaii since the first waves of Pacific Islander migrations starting over 1000 years ago. Today, bananas represent one of the most widely consumed fresh produce items in Hawaii, despite a steady downward trend in local production since the introduction of Banana bunchy top virus (BBTV) in 1989. To date, no commercially viable cultivar with strong resistance to BBTV has been identified or created, and various ways to combat the virus used in other parts of the world have proved challenging to apply in Hawaii. However, the pressure of the virus and overall impact on a farm can be mitigated using a combination of cultur
