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- Author or Editor: Nean Lee x
- HortScience x
The dancing-lady orchid, Oncidesa Gower Ramsey, is an important cultivar for cut-flower production, but it has low pollen fertility in breeding programs. In this study, we compared the pollen germination in vitro, sporad type, and pollinia development of Oncsa. Gower Ramsey and a diploid species, Oncidium sphacelatum Lindl (one of its grandparents). In Oncsa. Gower Ramsey, the pollen germination in vitro was lower as compared with those in Onc. sphacelatum. In addition, the frequency of abnormal sporads in Oncsa. Gower Ramsey was higher than those in Onc. sphacelatum. In Oncsa. Gower Ramsey, the middle layer and the tapetum were disorganized before meiosis, and subsequently they degenerated at the early tetrad stage. In contrast, the middle layer and the tapetum of Onc. sphacelatum began to degenerate at the early tetrad stage and fully disappeared at the bicellular pollen stage. These results suggested that the abnormal meiosis caused by unbalanced genomes and the premature degeneration of the middle layer and the tapetum could probably result in the abnormal pollen development and the low fertility of Oncsa. Gower Ramsey.
Photosynthetic rate is reduced during midday in some crops; this phenomenon has been termed as midday depression (MD). Oncidium also suffers greatly from MD in the summer, resulting in reduced growth and poor flowering quality. Since high radiation usually accompanies high temperature midday in the summer, it is difficult to figure out the key factor that promotes MD. We investigated the photosynthetic activities of Oncidium Gower Ramsey in the following conditions: environment-controlled and nonenvironment-controlled. In a growth chamber that simulated field growth conditions, photosynthesis declined dramatically when the temperature was higher than 32 °C. Photosynthesis was also reduced when photosynthetically active radiation (PAR) exceeded the saturating point of Oncidium. Gower Ramsey, which is about 250 μmol·m-2·s-1. However, the reduction was slight when PAR was under 500 μmol·m-2·s-1. Daily photosynthetic patterns were changed when Oncidium Gower Ramsey was grown under different environments. By regression, we found that MD was not directly associated with PAR within the range of 0–400 μmol·m-2·s-1. By contrast, photosynthesis was significantly reduced when temperature was higher than 32 °C. This explains the observation of greater photosynthetic reduction and earlier occurrence of MD when Oncidium Gower Ramsey was grown in rain-shelter rather than in phytotron and growth chamber, since temperature in the rain-shelter was not controlled, while the others were controlled at 25 °C. When Oncidium Gower Ramsey was moved from 35 °C to 25 °C, the photosynthetic depression was relieved.
Phalaenopsis flowers are prone to wilting under ethylene (C2H4) stress. 1-Methylcyclopropene (1-MCP) can protect Phalaenopsis flowers against ethylene injury. In this study, we determined the residual effect of 1-MCP and how it is affected by temperature. The efficacy of multiple applications of 1-MCP was also investigated. The residual effect of 1-MCP was determined by pretreating blooming Phalaenopsis amabilis plants with 0.8 μL·L−1 1-MCP for 8 hours on Day 0 followed by 2 μL·L−1 ethylene fumigation for 12 hours on designated days. Without 1-MCP pretreatment, flowers began to wilt within 2 days after exposure to ethylene. Duration of the residual protection of 1-MCP on P. amabilis was ≈6 to 8 days during summer in Taiwan. Lower temperatures after 1-MCP application prolonged protection times. The full protection times under day/night temperatures of 25/20, 20/15, and 15/13 °C were 4 to 8, 10 to 13, and 13 to 17 days, respectively. Furthermore, multiple applications of 1-MCP extended the duration of 1-MCP protection against ethylene. Three applications increased the residual protection of P. amabilis by 1-MCP to at least 24 days.