|Table of Contents|

Effects of Si on Growth and Photosynthetic Characteristics of Lettuce Seedlings Under Drought Stress

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2021年06
Page:
8-14
Research Field:
Publishing date:

Info

Title:
Effects of Si on Growth and Photosynthetic Characteristics of Lettuce Seedlings Under Drought Stress
Author(s):
QIE Yawei
(College of Civil Engineering,Guang′an Vocational and Technical College,Guang′an,Sichuan 638000)
Keywords:
silicondrought stresslettucephotosynthetic characteristics
PACS:
-
DOI:
10.11937/bfyy.20202668
Abstract:
Two lettuce varieties with different resistance,‘Glass lettuce’ and ‘Rosa red’,were cultivated in nutrient solution and 15% polyethylene glycol was used to simulate drought.The alleviating effect of exogenous Na2SiO3 with 1.0 mmol?L-1 as silicon donor on drought stress was studied,in order to explore the effects of silicon on the growth and photosynthetic characteristics of lettuce seedlings under drought stress.The results showed that compared with the control group,drought stress reduced the growth indexes of lettuce seedling such as plant height,root length,fresh weight and dry weight.The contents of chlorophyll a,chlorophyll b,carotenoid and total chlorophyll decreased.Net photosynthetic rate (Pn),stomatal conductance (Gs) and transpiration rate (Tr) decreased significantly,and intercellular CO2 concentration (Ci) increased significantly.PSⅡ photochemical efficiency (Fv/Fm),the largest PSⅡ actual photochemical efficiency (ФPSⅡ),photosynthetic electron transport efficiency (ETR) and light chemical quenching coefficient (qP) significantly reduced,rather than the coefficient of photochemical quenching (NPQ) increased significantly.The growth potential and fresh dry weight of lettuce seedlings could be increased by adding proper concentration of Si.The photosynthetic pigment content and photosynthetic capacity of lettuce were also improved.At the same time,it could also improve the activity of PSⅡ reaction center and chlorophyll fluorescence parameters.It could be seen that exogenous addition of a certain concentration of Na2SiO3 could alleviate the damage of drought stress on lettuce seedlings,improve the ability of lettuce leaves to capture and transform light energy,enhance the photosynthetic efficiency and promote the growth of lettuce.

References:

[1]ESFAHANIAN E,NEJADHASHEMI A P,ABOUALI M,et al.Development and evaluation of a comprehensive drought index[J].Journal of Environmental Management,2017,185:31-34.[2]LOBELL D B,ROBERTS M J,SCHLENKER W.Greater sensitivity to drought accompanies maize yield increase in the U.S.Midwest[J].Science,2014,344:516-519.[3]LI M X,MA Z G.Soil moisture drought detection and multi-temporal variability across China[J].Science China Earth Sciences,2015,58(10):1798-1813.[4]杨阳,申双和,马绎皓,等.干旱对作物生长的影响机制及抗旱技术的研究进展[J].科技通报,2020,36(1):8-15.[5]王琳.外源腐胺提高散叶生菜耐旱性的生理机制及细胞超微结构研究[D].北京:北京农学院,2017.[6]李琬婷,宁朋,王菲,等.外源脱落酸对干旱胁迫下滇润楠幼苗生长及生理特性的影响[J].应用生态学报,2020,31(5):1543-1550.[7]王丽君,李冬,申洪涛,等.油菜素内酯对干旱胁迫下烤烟幼苗生长生理及光合特性的影响[J].西北农林科技大学学报(自然科学版),2020(11):1-9.[8]邹芳,杨秀柳,黄思麒,等.外源亚精胺对干旱胁迫下甜高粱幼苗生长及生理生化指标的影响[J].中国农业科技导报,2020,22(4):44-52.[9]宋佳琦,王玉祥,张博.外源6-BA对紫花苜蓿盛花期叶片光合、生理特性及结荚率的影响[J].草业科学,2019,36(3):720-728.[10]李爽.外源硅对干旱胁迫下大叶女贞光合作用及叶绿素荧光特性的影响[J].江苏农业科学,2019,47(22):174-178.[11]贾国涛,顾会战,许自成,等.作物硅素营养研究进展[J].山东农业科学,2016,48(5):153-158.[12]NISHIMURA K,MIYAKE Y,TAKAHASHI E.On silicon,aluminium,and zinc accumulators discriminated from 147 species of Angiospermae[J].Memoirs of the College of Agriculture Kyoto University,1989,133:23-43.[13]LIANG Y,ZHU J,LI Z,et al.Role of silicon in enhancing resistance to freezing stress in two contrasting winter wheat cultivars[J].Environmental and Experimental Botany,2008,64(3):286-294.[14]HATTORI T,INANAGA S,ARAKI H,et al.Application of silicon enhanced drought tolerance in Sorghum bicolor[J].Physiologia Plantarum,2005,123(4):459-466.[15]NAKATA Y,UENO M,KIHARA J,et al.Rice blast disease and susceptibility to pests in a silicon uptake-deficient mutant lsi1 of rice[J].Crop Protection,2008,27(3-5):865-868.[16]FAROOQ M A,ALI S,HAMEED A,et al.Alleviation of cadmium toxicity by silicon is related to elevated photosynthesis,antioxidant enzymes;suppressed cadmium uptake and oxidative stress in cotton[J].Ecotoxicology & Environmental Safety,2013,96(4):242-249. [17]〖JP2〗ARNON D I.Copper enzyme in isolated chloroplasts poly-phenoloxidase in Beta vulgaris[J].Plant Physiol,1949,24(1):1-15.〖JP〗[18]ZHANG Y,SHI Y.Beneficial effects of silicon on photosynthesis of tomato seedlings under water stress[J].Journal of Integrative Agriculture,2018,17(10):2151-2159.[19]孙萌,尚忠海,沈植国,等.植物对干旱胁迫响应的研究进展[J].河南林业科技,2019,39(4):1-3,44.[20]LI H L,ZHU Y X,HU Y H,et al.Beneficial effects of silicon in alleviating salinity stress of tomato seedlings grown under sand culture[J].Acta Physiologiae Plantarum,2015,37(4):71.[21]AGARIE S,HANAOKA N,UENO O,et al.Effects of silicon on tolerance to water deficit and heat stress in rice plants (Oryza sativa L.),monitored by electrolyte leakage[J].Plant Production Science,1998,1(2):96-103.[22]曹逼力,李炜蔷,徐坤.干旱胁迫下硅对番茄叶片光合荧光特性的影响[J].植物营养与肥料学报,2016,22(2):495-501.[23]余利平,张春雷,马霓,等.甘蓝型油菜对干旱和低磷双重胁迫的生理反应Ⅱ:叶片叶绿素含量及叶绿素荧光参数[J].干旱地区农业研究,2013,31(2):169-175.[24]MISHRA S,AGRAWAL S B.Interactive effects between supplemental ultraviolet-B radiation and heavy metals on the growth and biochemical characteristics of Spinacia oleracea L.[J].Plant Physiol,2006,18(2):307-314.[25]李思,张莉,姚雅琴.干旱对冬小麦叶片气孔、活性氧和光合作用的影响[J].河北大学学报(自然科学版),2015,35(5):487-493.[26]孙山,徐秀玉,程来亮,等.干旱胁迫下硅对平邑甜茶光合功能的影响[J].植物生理学报,2015,51(12):2231-2238.[27]王立涵,王翔,李世斌,等.高温胁迫下外源物质对黄瓜幼苗叶绿素荧光和抗氧化酶活性的影响[J].安徽农学通报,2019,25(10):20-22,95.[28]徐晨,刘晓龙,李前,等.供氮水平对盐胁迫下水稻叶片光合及叶绿素荧光特性的影响[J].植物学报,2018,53(2):185-195.[29]刘铎,李平,杨庆山,等.硅提高植物耐旱性研究进展[J].广东农业科学,2019,46(2):88-93.

Memo

Memo:
-
Last Update: 2021-06-08