An artificial solar spectrum substantially alters plant development compared with usual climate room irradiance spectra

日光 光合作用 辐照度 阳光 钠蒸气灯 植物 太阳辐照度 园艺 广谱 干重 拦截 光强度 环境科学 避光 生物 大气科学 化学 生态学 物理 光学 突变体 拟南芥 基因 生物化学 组合化学
作者
Sander W. Hogewoning,Peter Douwstra,G. Trouwborst,W. van Ieperen,Jeremy Harbinson
出处
期刊:Journal of Experimental Botany [Oxford University Press]
卷期号:61 (5): 1267-1276 被引量:159
标识
DOI:10.1093/jxb/erq005
摘要

Plant responses to the light spectrum under which plants are grown affect their developmental characteristics in a complicated manner. Lamps widely used to provide growth irradiance emit spectra which are very different from natural daylight spectra. Whereas specific responses of plants to a spectrum differing from natural daylight may sometimes be predictable, the overall plant response is generally difficult to predict due to the complicated interaction of the many different responses. So far studies on plant responses to spectra either use no daylight control or, if a natural daylight control is used, it will fluctuate in intensity and spectrum. An artificial solar (AS) spectrum which closely resembles a sunlight spectrum has been engineered, and growth, morphogenesis, and photosynthetic characteristics of cucumber plants grown for 13 d under this spectrum have been compared with their performance under fluorescent tubes (FTs) and a high pressure sodium lamp (HPS). The total dry weight of the AS-grown plants was 2.3 and 1.6 times greater than that of the FT and HPS plants, respectively, and the height of the AS plants was 4-5 times greater. This striking difference appeared to be related to a more efficient light interception by the AS plants, characterized by longer petioles, a greater leaf unfolding rate, and a lower investment in leaf mass relative to leaf area. Photosynthesis per leaf area was not greater for the AS plants. The extreme differences in plant response to the AS spectrum compared with the widely used protected cultivation light sources tested highlights the importance of a more natural spectrum, such as the AS spectrum, if the aim is to produce plants representative of field conditions.
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