光照可利用性对荔枝(Litchi chinensis)叶片气体交换和扩展的影响。
Effects of light availability on leaf gas exchange and expansion in lychee (Litchi chinensis).
作者信息
Hieke S, Menzel C M, Lüdders P
机构信息
Maroochy Research Station, Queensland Department of Primary Industries, PO Box 5083 SCMC, Nambour, Queensland 4560, Australia.
出版信息
Tree Physiol. 2002 Dec;22(17):1249-56. doi: 10.1093/treephys/22.17.1249.
Effects of photosynthetic photon flux density (PPFD) on leaf gas exchange of lychee (Litchi chinensis Sonn.) were studied in field-grown "Kwai May Pink" and "Salathiel" orchard trees and young potted "Kwai May Pink" plants during summer in subtropical Queensland (27 degrees S). Variations in PPFD were achieved by shading the trees or plants 1 h before measurement at 0800 h. In a second experiment, potted seedlings of "Kwai May Pink" were grown in a heated greenhouse in 20% of full sun (equivalent to maximum noon PPFD of 200 micromol m(-2)xs(-1)) and their growth over three flush cycles was compared with seedlings grown in full sun (1080 micromol m(-2)xs(-1)). Young potted plants of "Kwai May Pink" were also grown outdoors in artificial shade that provided 20, 40, 70 or 100% of full sun (equivalent to maximum PPFDs of 500, 900, 1400 and 2000 micromol m(-2)xs(-1)) and measured for shoot extension and leaf area development over one flush cycle. Net CO2 assimilation increased asymptotically in response to increasing PPFD in both orchard trees and young potted plants. Maximum rates of CO2 assimilation (11.9 +/- 0.5 versus 6.3 +/- 0.2 micromol CO2 m(-2) s(-1)), dark respiration (1.7 +/- 0.3 versus 0.6 +/- 0.2 micromol CO2 m(-2) s(-1)), quantum yield (0.042 +/- 0.005 versus 0.027 +/- 0.003 mol CO2 mol(-1)) and light saturation point (1155 versus 959 micromol m(-2) s(-1)) were higher in orchard trees than in young potted plants. In potted seedlings grown in a heated greenhouse, shoots and leaves exposed to full sun expanded in a sigmoidal pattern to 69 +/- 12 mm and 497 +/- 105 cm(2) for each flush, compared with 27 +/- 7 mm and 189 +/- 88 cm(2) in shaded seedlings. Shaded seedlings were smaller and had higher shoot:root ratios (3.7 versus 3.1) than seedlings grown in full sun. In the potted plants grown outdoors in 20, 40, 70 or 100% of full sun, final leaf area per shoot was 44 +/- 1, 143 +/- 3, 251 +/- 7 and 362 +/- 8 cm(2), respectively. Shoots were also shorter in plants grown in shade than in plants grown in full sun (66 +/- 5 mm versus 101 +/- 2 mm). Photosynthesis in individual leaves of lychee appeared to be saturated at about half full sun, whereas maximum leaf expansion occurred at higher PPFDs. We conclude that lychee plants can persist as seedlings on the forest floor, but require high PPFDs for optimum growth.
在亚热带昆士兰(南纬27度)的夏季,对田间种植的“桂味”和“沙拉蒂尔”荔枝树以及盆栽“桂味”幼树的叶片气体交换受光合光子通量密度(PPFD)的影响进行了研究。在上午8点测量前1小时,通过对树木或植株进行遮荫来实现PPFD的变化。在第二个实验中,将“桂味”盆栽幼苗种植在加热温室中,光照强度为全日照的20%(相当于中午最大PPFD为200微摩尔·米⁻²·秒⁻¹),并将其在三个新梢生长周期内的生长情况与在全日照(1080微摩尔·米⁻²·秒⁻¹)下生长的幼苗进行比较。还将“桂味”盆栽幼树种植在户外人工遮荫处,遮荫强度分别为全日照的20%、40%、70%或100%(分别相当于最大PPFD为500、900、1400和2000微摩尔·米⁻²·秒⁻¹),并在一个新梢生长周期内测量其新梢伸长和叶面积发育情况。果园树木和盆栽幼树的净二氧化碳同化率均随PPFD的增加而渐近增加。果园树木的最大二氧化碳同化率(11.9±0.5对6.3±0.2微摩尔二氧化碳·米⁻²·秒⁻¹)、暗呼吸速率(1.7±0.3对0.6±0.2微摩尔二氧化碳·米⁻²·秒⁻¹)、量子产量(0.042±0.005对0.027±0.003摩尔二氧化碳·摩尔⁻¹)和光饱和点(1155对959微摩尔·米⁻²·秒⁻¹)均高于盆栽幼树。在加热温室中生长的盆栽幼苗,暴露在全日照下的新梢和叶片以S形模式扩展,每个新梢生长周期分别达到69±12毫米和497±105平方厘米,而遮荫幼苗分别为27±7毫米和189±88平方厘米。遮荫幼苗比全日照下生长的幼苗更小,且茎根比更高(3.7对3.1)。在户外种植于全日照的20%、40%、70%或100%遮荫条件下的盆栽植物中,每个新梢的最终叶面积分别为44±1、143±3、251±7和362±8平方厘米。遮荫条件下生长的植株新梢也比全日照下生长的植株短(66±5毫米对101±2毫米)。荔枝单叶的光合作用在约半日照时似乎达到饱和,而最大叶片扩展发生在较高的PPFD下。我们得出结论,荔枝植株作为幼苗可以在森林地面存活,但需要高PPFD才能实现最佳生长。
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