With the increasing popularity, nobile Dendrobium is a promising potted flower commodity in the near future. Physiological studies of nobile Dendrobium is required to understand the conditions that can yield the best potted flower product. This study was characterized to three major topics, including patterns and seasonal changes of photosynthesis, methods of flowering regulation, and effects of long-term dark shipping effect on nobile Dendrobium. Dendrobium Lan Tarn Beauty, D. Lucky Girl, and D. Second Love 'Tokimeki' were used for determining their photosynthesis pattern. The result of the δ13C values in the plant organs (roots, pseudobulb, and leaves) ranged from -23.9‰ to -26.0‰ among three cultivars. In addition, net CO2 uptake rates (Pn) in the three cultivars were positive during daytime and were nearly zero at night based on diurnal observations. Combination of both results suggested strongly that nobile Dendrobium is a C3 plant. Light response curve of all three cultivars showed the light saturation points (measured in 9 Sept. and 21 Nov. 2010) ranged from 245 to 275 μmol•m-2•s-1 photosynthetic photon flux density (PPFD). Under high-light environment, autumn and spring were the seasons where nobile Dendrobium showed highest photosynthesis capacity, and photosynthetic limitation occurred during winter. In the summer, photosynthetic depression occurred when the leaf temperature elevated to 36.4 oC. Therefore, a light intensity up to 600 μmol•m-2•s-1 PPFD is recommended for nobile Dendrobium production at 18 to 30 oC, but for D. Lucky Girl and D. Second Love 'Tokimeki', the light should be reduced to 400 - 500 μmol•m-2•s-1 PPFD when the temperature is not controlled. Temperature controls during or after vernalization were used to manipulate the flowering of D. Lan Tarn Beauty and D. Lucky Girl. Vernalization chilling requirement of D. Lucky Girl required at least 16 h daily chilling (15/13 oC) for 4 weeks. In the effort of delaying flowering time, heat interruption at 25/20 oC applied on the third week under a scheme four weeks could delay flowering of D. Lan Tarn Beauty and D. Lucky Girl for 14 and 16 days, respectively, without reducing the shelf-life. During flower bud development, plants kept at 20/15 oC had stronger flower coloration; those kept at 30/25 oC developed the quickest to flower in both cultivars. Plants in temperature regimen of to 25/20 oC resulted in 6 to 7 days late to flower but with larger flower diameter comparing with those of 30/25 oC. Plants could flower at 35/30 oC but with malformations. Various temperatures (10, 15, 20 and 25 oC) and durations (7, 14, 21 days) of simulated dark shipping (SDS) were applied for D. Lan Tarn Beauty and D. Lucky Girl. After SDS, Pn of both cultivars decreased to nearly zero but could gradually recover thereafter. Recovery time was delayed with increasing temperature and duration of SDS. Dendrobium Lan Tarn Beauty stored at 10 oC for 21 days had the shortest time (4 days) to recover to normal photosynthetic status and the recovery time prolonged to 8 to 12 days with increasing the SDS temperatures from 15 oC to 25 oC. In addition, photosynthetic recovery time prolonged from 1 to 12 d with increasing storage duration from 7 to 21 d when stored in 15 oC. After flower forcing, plants stored at 10 oC flowered earlier than other treatments. Shorter shelf-lifes were found in D. Lan Tarn Beauty stored at 20 and 25 oC than unshipped plants. As a result, nobile Dendrobium could be stored at 10 to 15 oC for prolonged SDS to 21 d.