Degrees
- Ph.D. Horticulture Sciences/Horticultural Engineering
- Chiba University, Chiba, Chiba, Japan
- Growth regulation in plant micropropagation by controlling in-vitro physical environment
Interests
No activities entered.
Courses
2017-18 Courses
-
Independent Study
ABE 599 (Spring 2018)
2016-17 Courses
-
Directed Research
PLS 492 (Spring 2017) -
Physio Plnt Prod Ctl Env
ABE 475A (Spring 2017) -
Physio Plnt Prod Ctl Env
ABE 575A (Spring 2017) -
Physio Plnt Prod Ctl Env
PLS 475A (Spring 2017) -
Physio Plnt Prod Ctl Env
PLS 575A (Spring 2017) -
Independent Study
PLS 499 (Fall 2016)
2015-16 Courses
-
Thesis
PLS 910 (Summer I 2016) -
Directed Research
PLS 492 (Spring 2016) -
Dissertation
PLS 920 (Spring 2016) -
Master's Report
ABE 909 (Spring 2016) -
Physio Plnt Prod Ctl Env
ABE 475A (Spring 2016) -
Physio Plnt Prod Ctl Env
ABE 575A (Spring 2016) -
Physio Plnt Prod Ctl Env
PLS 475A (Spring 2016) -
Physio Plnt Prod Ctl Env
PLS 575A (Spring 2016)
Scholarly Contributions
Journals/Publications
- Eguchi, T., Hernandez, R., & Kubota, C. (2016). Far-red and blue light synargistically mitigate intumescence injury of tomato plants grown under ultraviolet-deficit light environment. HortScience.
- Hernandez, R., & Kubota, C. (2016). Physiological responses of cucumber seedlings under different blue and red photon flux ratios using LEDs. ENVIRONMENTAL AND EXPERIMENTAL BOTANY, 121, 66-74.
- Hernandez, R., Eguchi, T., Deveci, M., & Kubota, C. (2016). Tomato seedling physiological responses under different percentages of blue and red photon flux ratios using LEDs and cool white fluorescent lamps. Scientia Horticulturae, 213, 270-280. doi:http://dx.doi.org/10.1016/j.scienta.2016.11.005
Proceedings Publications
- Eguchi, T., Hernandez, R., & Kubota, C. (2016, May). End-of-day far-red lighting combined with blue-rich light environment to mitigate intumescence injury of two interspecific tomato rootstocks. In ISHS Light in Horticulture, 1134, 163-170.
- Hernandez, R., Eguchi, T., & Kubota, C. (2016, May). Growth and Morphology of Vegetable Seedlings under Different Blue and Red Photon Flux Ratios Using LEDs as Sole Source Lighting. In ISHS - Light in Horticulture, 1134, 195-200.
- Kubota, C., Kroggel, M., Both, A., Burr, J. F., & Whalen, M. (2016, May). Does supplemental lighting make sense for my crop? – Empirical evaluations. In ISHS - Light in Horticulture, 1134, 403-411.
Presentations
- Kubota, C. (2016, August). Advances in greenhouse strawberry production - Opportunities in North America. ISHS International Strawberry Symposium. Quebec, Canada: ISHS.
- Kubota, C. (2016, August). Controlled environments for production of value-added food crops and transplants. Annual conference of American Society for Horticultural Science (ASHS). Atlanta: ASHS.
- Kubota, C. (2016, December). Technologies and innovation in US controlled environment agriculture. Webinar/workshop on plant factories. Webinar to Japan: NPO Japanese Association for Plant Factories.
- Kubota, C. (2016, January). Sustainable greenhouse strawberry production. BC Horticultural Growers Short Course (Canada). BC, Canada: BC Growers Association.
Poster Presentations
- Kubota, C. (2016, September). Quantitative evaluation of respacing in lettuce production under electric lighting. International Controlled Environment Conference. Canberra: NCERA-101.
Reviews
- Ishii, M., Sase, S., Moriyama, H., Okushima, L., Ikeguchi, A., Hayashi, M., Kurata, K., Kubota, C., Kacira, M., & Giacomelli, G. A. (2016. Controlled environment agriculture for effective plant production system in a semiarid greenhouse(pp 101-113).
Others
- Miles, C., Kubota, C., & Zhao, X. (2016, summer). Vegetable grafting international field trip report - Part II: Sicily, Italy. Vegetable Grafting - Research based information portal (http://www.vegetablegrafting.org/).
