Influence of Light Intensity on Stoma and Photosynthetic Characteristics of Soybean Leaves
CHEN JiYu, FENG LingYang, GAO Jing, SHI JianYi, ZHOU YuChen, TU FaTao, CHEN YuanKai, YANG WenYu, YANG Feng,College of Agronomy, Sichuan Agricultural University/Key Laboratory of Crop Ecophysiology and Farming System in Southwest China, Ministry of Agriculture/Sichuan Engineering Research Center for Crop Strip Intercropping System, Chengdu 611130
Abstract 【Objective】 To reveal the response mechanism of photosynthetic and stomatal characteristics of soybean leaves to shade, it analyzed the stomatal characteristics, photosynthesis and carbohydrate changes of soybean leaves in seedling stage under different light intensity. 【Method】 A pot experiment was conducted to analyze the impact of four light-intensity levels including CK (normal light), LS (light shading, 20% shading), MS (medium shading, 40% shading) and SS (severe shading treatment, 75% shading) on stomata characteristics of upper and lower epidermis, photosynthetic fluorescence parameters, soluble sugar and starch content of two soybean varieties (Nandou-12, weak shade-sensitive and Guixiadou-7, high shade-sensitive).【Result】 Results revealed that the maximum number of stomata on the upper and lower epidermis of soybean leaves was observed with Nandou-12. Among shading treatments, LS and MS treatments significantly increased the number of stomata on the upper (by 26.9% and 18.5%) and lower (by 13.9% and 39.2%) epidermis as compared with CK. And between soybean varieties, the highest rate of photosynthesis was measured under LS treatment, whose average was 14.33 μmol CO2·m -2·s -1. In addition, the highest values of stomatal conductance in Nandou-12 (0.57 mm·m -2·s -1) and Guixiadou-7 (0.30 mm·m -2·s -1) were measured under LS treatment, and the maximum concentration of carbon dioxide under LS and SS treatments with Nandou-12 was significantly higher than that under CK. These results implied that increasing light intensity decreased the actual quantum yield, however, the actual quantum yield of Nandou-12 was significantly higher than that of Guixiadou-7. In contrast, the non-photochemical quenching coefficient of Nandou-12 and Guixiadou-7 was enhanced with a decline in light intensity. Moreover, the starch content of Nandou-12 and Guixiadou-7 was decreased by 59.0%, 77.8%, and 95.8%, and 47.5%, 67.3%, and 87.8%, respectively, under LS, MS, and SS treatments. Whereas, light shading (LS) significantly increased (72.7%) the soluble sugar content of Nandou-12 as compared with the corresponding values of Guixiadou-7.【Conclusion】 Overall, our results confirmed that shading conditions directly affect the stomata and photosynthetic characteristics of soybean leaves. However, by maintaining appropriate shading, the net photosynthetic rate of soybean leaves could be increased by increasing the rate of stomatal opening, which was conducive to increase the accumulation of carbohydrates and thus enhance the shade resistance of soybeans. Keywords:soybean;shade;stoma characteristics;photosynthetic characteristics;carbohydrate
PDF (1563KB)元数据多维度评价相关文章导出EndNote|Ris|Bibtex收藏本文 本文引用格式 陈吉玉, 冯铃洋, 高静, 时健祎, 周雨晨, 涂发涛, 陈元凯, 杨文钰, 杨峰. 光照强度对苗期大豆叶片气孔特性及光合特性的影响[J]. 中国农业科学, 2019, 52(21): 3773-3781 doi:10.3864/j.issn.0578-1752.2019.21.006 CHEN JiYu, FENG LingYang, GAO Jing, SHI JianYi, ZHOU YuChen, TU FaTao, CHEN YuanKai, YANG WenYu, YANG Feng. Influence of Light Intensity on Stoma and Photosynthetic Characteristics of Soybean Leaves[J]. Scientia Agricultura Sinica, 2019, 52(21): 3773-3781 doi:10.3864/j.issn.0578-1752.2019.21.006
WANG XC, YANG WY . Maize-soybean relay strip intercropping system mechanization to a new level .Soybean Science & Technology, 2012(6):48-50. (in Chinese) [本文引用: 1]
YANG WY, YONG TW, REN WJ, FAN GQ, MOU JY, LU XL . Develop relay-planting soybean, revitalize soybean industry Soybean Science, 2008,27(1):1-7. (in Chinese) [本文引用: 1]
YANGF, WANG XC, LIAO DP, LU FZ, GAO RC, LIU WG, YONG TW, WU XL, DU JB, LIUJ . Yield response to different planting geometries in maize-soybean relay strip intercropping systems , 2015,107(1):296-304. [本文引用: 1]
LI WL . Effect of different light qualities on seed germination and physiological and biochemical characteristics of lettuce (Lactuca sativa L.) seedlings by using the LED light [D]. , 2009. [本文引用: 1]
YANG HM, WANG GX . Leaf stomatal densities and distribution in Triticum aestivum under drought and CO2 enrichment. Chinese Journal of Plant Ecology, 2001,25(3):312-316. (in Chinese) [本文引用: 1]
YU XF, ZHANG XC, FANG YJ, WANG HL, HOU HZ, MA YF, ZHAO JJ . Effects of shading on stomatal and photosynthetic characteristics of spring wheat under elevated atmospheric CO2 concentration .Gansu Agricultural Science & Technology, 2017(6):31-36. (in Chinese) [本文引用: 2]
ZHOU YX, JU TZ, WANG YD, WAN ZD, YANG YL . Diurnal variation of chlorophyll fluorescence parameters of three xerophytes Journal of Arid Land Resources & Environment, 2019,33(5):164-170. [本文引用: 1]
GAO YP, FENGY, MA ZJ, LIQ, ZHANG XJ . Stomatal character changes of soybean leaves under water stress Agricultural Research in the Arid Areas, 2007,25(2):77-79. [本文引用: 1]
WANG XW, DUAN YH, CAOH, ZHENG WY . The photosynthetic nonstomatal limitation of spur-apple young trees under water stress Acta Botanica Boreali-Occidentalia Sinica, 2003,23(9):1609-1613. (in Chinese) [本文引用: 1]
LIU WG, JIANGT, SHE YH, YANGF, YANG WY . Preliminary study on physiological response mechanism of soybean ( Glycine max) stem to shade stress at seedling stage. Chinese Journal of Oil Crop Sciences, 2011,33(2):141-146. (in Chinese) [本文引用: 1]
REN ML, LIU WG, LIUT, DU YL, DENG YC, ZOU JL, YUANJ, YANG WY . Transcriptome analysis of stem morphogenesis under shade stress in soybean Acta Agronomica Sinica, 2016,42(9):1319-1331. (in Chinese) [本文引用: 1]
GONG WZ, WU YS, YONG TW, LIU WG, YANGF . Effects of shade and lighting recovery on growth and yield of soybean in maize- soybean relay strip intercropping Chinese Journal of Oil Crop Sciences, 2015,37(4) : 475-480. (in Chinese) [本文引用: 3]
REN ML, LIU WG, LIU XM, FANGP, YANG WY . Effect of shading signal on growth and photosynthetic characteristics of soybean seedlings Chinese Journal of Eco-Agriculture, 2016,24(4):499-505. (in Chinese) [本文引用: 1]
FAN YF, YANGF, HE ZZ, WANGR, LIU QL . Effects of shading and light recovery on soybean morphology and photosynthetic characteristics in soybean-maize intercropping system Chinese Journal of Eco-Agriculture, 2016,24(5):608-617. (in Chinese) [本文引用: 2]
FAN YF, YANGF, LIU QL, CHEN JX, WANGR, LUO SL, YANG WY . Effects of shading on leaf structure and photosynthetic fluorescence characteristics of soybean seedlings in maize-soybean relay intercropping system Acta Agronomica Sinica, 2017,43(2):277-285. (in Chinese) [本文引用: 1]
YANGF, FENG LY, LIU QL, WU XL, FAN YF, RAZA MA, CHENG YJ, CHEN JX, WANG XC, YONG TW . Effect of interactions between light intensity and red-to-far-red ratio on the photosynthesis of soybean leaves under shade condition , 2018,150:79-87. [本文引用: 1]
CAI ZQ, QIX, CAO KF . Response of stomatal characteristics and its plasticity to different light intensities in leaves of seven tropical woody seedlings Chinese Journal of Applied Ecology, 2004,15(2):201-204. (in Chinese) [本文引用: 1]
SONGJ, LI SF, LI SF, CAI YF . Effects of shading on photosynthesis and anatomical structure in leaves of Rhododendron. Guihaia, 2019, 39(6):802-811. (in Chinese) [本文引用: 1]
WU XL, LIANG HY, YANGF, LIU WG, SHE YH, YANG WY . Comprehensive evaluation and screening identification indexes of shade tolerance at seedling in soybean Scientia Agricultura Sinica,2015,48(13):2497-2507. (in Chinese) [本文引用: 1]
LI HY, NI HT, YANG QK . Study on stomatal and hair density in soybean leaves of resistant and susceptible cultivars of Cercospora sojina Hara. Chinese Journal of Oil Crop Sciences, 2001,23(3):52-53. (in Chinese) [本文引用: 1]
SU BY, SONG YX, CHEN SB, YANG WY . Photosynthetic responses of soybean ( Glycine max) seedlings to shading caused by maize in an intercropping system. Acta Ecologica Sinica, 2015,35(10):3298-3308. (in Chinese) [本文引用: 1]
LIR, WENT, TANG YP, SUNX, XIAC . Effect of shading on photosynthetic and chlorophyll fluorescence characteristics of soybean Acta Prataculturae Sinica, 2014,23(6):198-206. (in Chinese) [本文引用: 3]
HU WH, YU JQ . Effects of chilling under low light on photosynthesis and chlorophyll fluorescence characteristic in tomato leaves , 2001,28(1):41-46. [本文引用: 1]
DEMMIG AB, ADAMS IIIW . The role of xanthophyll cycled carotenoids in the protection of photosynthesis , 1996,1(1):21-26. [本文引用: 1]
ZHANG ZW, LUOS, ZHANG GC, FENG LY, ZHENGC, ZHOU YH, DU JB, YUANM, CHEN YE, WANG CQ, LIU WJ, XU XC, HUY, BAI SL, KONG DD, YUANS, HE YK . Nitric oxide induces monosaccharide accumulation through enzyme s-nitrosylation , 2017,40(9):1834-1848. [本文引用: 1]
HU YB, SUN GY, WANG XC . Induction characteristics and response of photosynthetic quantum conversion to changes in irradiance in mulberry plants , 2007,164(8):959-968. [本文引用: 1]
ERIKM . Effect of CO2-concentration on the morphological, histological and cytological changes on tomatoes plants , 1973,23(4):241-246. [本文引用: 1]
TAN CY, LIU ZY, ZHU XT, DU YH, HUANG JB . The photosynthetic physiology responses of intercropping soybean under different planting density Guizhou Agricultural Sciences, 2012,40(8):49-52. (in Chinese) [本文引用: 2]
DRAKE PL, FROEND RH, FRANKS PJ . Smaller, faster stomata: Scaling of stomatal size, rate of response, and stomatal conductance , 2013,64(2):495-505. [本文引用: 1]
HETHERINGTON AM, WOODWARD FI . The role of stomata in sensing and driving environmental change , 2003,424(6951):901-908. [本文引用: 1]
YANG ZQ, ZHANGJ, JIANG XD, ZHANG JB, ZHUJ, GU LL, ZHANGB . The effect of red: far red ratio on the stomata characters and stomata conductance of Chrysanthemum leaves Acta Ecologica Sinica, 2012,32(7):2135-2141. (in Chinese) [本文引用: 1]
QIUL, WU LL . Study on photosynthetic rate, stomatal conductance and transpiration rate of different periods and sections in soybean .Heilongjiang Agricultural Sciences, 2009(3):35-37, 49. (in Chinese) [本文引用: 1]
CHENG YJ, CHEN JX, WANG ZL, FAN YF, CHEN SY, LI ZL, LIU QL, LI ZC, YANGF, YANG WY . Effects of light intensity and light quality on morphological and photosynthetic characteristics of soybean seedlings Scientia Agricultura Sinica, 2018, 51(14):2655-2663. (in Chinese) [本文引用: 1]
ZHANGZ, YANGS, DU GJ, HUANG SP, MA FJ . Effects of shade on the photosynthetic characteristics and chlorophyll fluorescence parameters of three kinds of leguminous forage Acta Prataculturae Sinica, 2013,22(5):212-219. (in Chinese) [本文引用: 1]
KUMUDINIS, HUME DJ, CHUG . Genetic improvement in short season soybeans , 2002,41(1):141-145. [本文引用: 1]
WILCOX JR . Sixty years of improvement in publicly developed elite soybean lines , 2001,41(6):1711-1716. [本文引用: 1]
HERBERT SJ . Some eco-physiological characteristics at R4-R5 stage in relation to soybean yield differing in maturities , 2004,3(6):425-434. [本文引用: 1]
CHENG YJ, FAN YF, CHEN JX, WANG ZL, TAN TT, LI JF, LI SL, YANGF, YANG WY . Effects of light intensity on photosynthetic characteristics and assimilates of soybean leaf Acta Agronomica Sinica, 2018,44(12):129-136. (in Chinese) [本文引用: 1]
ZHOU YH, HUANG LF, YU JQ . Effects of sustained chilling and low light on gas exchange, chlorophyll fluorescence quenching and absorbed light allocation in cucumber leaves Journal of Plant Physiology & Molecular Biology, 2004,30(2):153-160. (in Chinese) [本文引用: 1]
MI GQ, LIU LY, JIN BY, ZHANG ZX, REN HZ . Influence of low light on net photosynthesis rate and activities of enzymes related to sucrose metabolism in cucumber seedlings Acta Agriculturae Boreali-Sinica, 2011,26(1):146-150. (in Chinese) [本文引用: 1]