3 Ornamental Bamboos Introduced in Changsha: Adaptability Research

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Chinese Agricultural Science Bulletin ›› 2019, Vol. 35 ›› Issue (31) : 26-32. DOI: 10.11924/j.issn.1000-6850.casb18070075

3 Ornamental Bamboos Introduced in Changsha: Adaptability Research

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This paper aims to study the introduction adaptability of three ornamental bamboos (B. ventricosa f. kimmei 、Pleioblastus kongosanensis.fau-reostriatus and Sasaella glabra(Nakai)Nakai ex Koidz.) in changsha area. the diurnal variation of photosynthesis were measured in different months for one year . The results showed that: The light value of net photosynthetic rate of three ornamental bamboos was significantly different from month to month(P<0.01). In July, the diurnal change of net photosynthetic rate in Pn value of 3 ornamental bamboo species was double-peak type and the light value of net photosynthetic rate was the highest. July is an important period for the growth of three ornamental bamboos.The diurnal change of net photosynthetic rate ( Pn) of 3 ornamental bamboo ware a one-peak curve in the other three months and the light value of net photosynthetic rate was the lowest in January . the photosynthesis of 3 ornamental bamboo in in January was inhibited.The growth status of the B.ventricosa f.kimmei is better than that of the other two ornamental bamboos.According to correlation analysis,the net photosynthetic rate was affected by stomatal conductance, intercellular CO2 concentration, transpiration rate, photosynthetic effective radiation, air CO2 concentration, air temperature and atmospheric relative humidity. The main factors influencing net photosynthetic rate of different bamboo species in different months were obtained by multiple regression analysis. According to the results of the experiment: In changsha or similar environment areas,prefential introduction opportunities shouid be given to B.ventricosa f.kimmei. Once the growth of three ornamental bamboos was stressed in different months, they were raised scientifically.

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Ornamental bamboo; environmental factors; photosynthetic characteristics parameters; correlation analysis

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3 Ornamental Bamboos Introduced in Changsha: Adaptability Research. Chinese Agricultural Science Bulletin. 2019, 35(31): 26-32 https://doi.org/10.11924/j.issn.1000-6850.casb18070075

References

[1]顾菡娇,高璜,陈伏生,等.竹子观赏特性及其在园林景观配置中的应用[J].南方林业科学,2016,10,44(5):61-64.
[2]李桂香,李建友,王益民,等.观赏竹种引种与栽培试验[J].林业科技开发,2008,22,4:102-103.
[3]周旭红,梁华,李纯佳,等.植物生长调节剂对香石竹生长发育的影响研究[J].中国农学通报 2018,34(2):23-27.
[4]黄滔,刘玮,唐红,等.4种优良观赏竹耐高温与抗旱性研究及其综合评价[J].西北林学院学报,2014.29(4):26-32.
[5]陈羡德,陈珺.三种观赏竹抗旱能力比较分析[J].北方园艺,2015:63-66.
[6]王娟.4种耐寒观赏竹抗寒性分析[J].世界竹藤通讯2017,15(2):26-28.
[7]刘玉华,贾志宽,史纪安,等.旱作条件下不同苜蓿品种光合作用的日变化[J].生态学报2006,5,26(5):1468-1477.
[8]佘旭东,蒋明敏,何玲莉.‘苏薹1号’菜心田间光合特性的研究[J].中国农学通报,2017,33(26):52-61.
[9]Wang Y-P,Gao H-H ,Liu Y-S ,et al.Adaptation mechanisms of alpineplants photosynthetic apparatus against adverse stress: Areview[J].Chinese Journal of Applied Ecology ,2013,24(7):2049-2055.
[10]余红兵,曾磬,肖润林,等.花叶芦竹光合特性日动态及其影响因素分析[J].湖南农业大学学报(自然科学版) , 2013,4.39,(2):200-203
[11]陈卫元.锦竹光合特性的初步研究[J].江苏农业学报,2008, 24(6): 901-905
[12]李迎春,杨清平,陈双林,等.龟甲竹光合生理特性及其与主要影响因子关系[J].林业科技开发2011,25,(2):35-39.
[13]钟新科黄滔唐红.长沙地区龟甲竹高生长及光合特性研究[J].湖南林业科技,2017,06,44(3):15-20.
[14]吴志庄,杜旭华,熊德礼,等.不同类型竹种光合特性的比较研究[J].生态环境学报,2013, 22(9): 1523-1527.
[15]高贵宾,钟浩,吴志庄,等.不同混生地被竹光合和荧光特征比较[J].福建农林大学学报(自然科学版) ,2016,9,45(5):515-521.
[16]林树燕,范婷婷,姜明云,等.3种(品种)地被竹花器官形态特征及学名订正[J]. 南京林业大学学报(自然科学版),2017,1,41(1):189-193.
[17]王建武,吴纯华,赵亮,等.6种观赏地被竹的抗逆性研究[J].山东林业科技,2015,5,220:48-51.
[18]刘国华,王福升,丁雨龙,等.4种地被竹光合作用日变化及光合光响应曲线[J].福建林学院学报,2009,29(3):258-263.
[19]何海洋,彭方仁,张瑞,等.不同品种美国山核桃嫁接苗光合特性比较[J].南京林业大学学报(自然科学版),2015,39( 4) :19 -25
[20]王林昊,董文渊,唐海龙,等.筇竹光合日变化特征研究[J].世界竹藤通讯,2016,14(2):6-11.
[21]Haldimann P,Feller U.Inhibition of photosynthesis by high temperature in oak ( Quercus pubescens L) leaves grown under natural conditions closely correlates with a reversible heat-dependent reduction of the activation state of ribulose-1,5-bisphosphate carboxylase / oxygenase[J].Plant Celland Environment,2004,27(9):1169-1183.
[22]Fritz JJ,Neale P J,Davis R F,Peloquin J A.Response of Antarctic phytoplankton to solar UVR exposure: inhibition and recovery of photosynthesis in coastal and pelagic assemblages[J].Marine Ecology-Progress Series,2008,365:1-16.
[23]Zhou Y H,Lam H M,Zhang J H.Inhibition of photosynthesis and energy dissipation induced by water and high light stresses in rice[J].Journal ofExperimental Botany,2007,58(5): 1207-1217.
[24]Farquhar G D, Sharkey T D. Stomatal conductance and photosynthesis[J]. Annual Review of Physiology, 1982,33:317-345.
[25]张玲,曹帮华,高健,等.5种地被竹光合日变化特性研究[J].山东科学,2009,4,22(2):22-26.
[26]靳甜甜,傅伯杰,刘国华,等.不同坡位沙棘光合日变化及其主要环境因子[J].生态学报, 2011,31(7) :1783—1793.
[27]许大全.光合作用气孔限制分析中的一些问题[J].植物生理学通讯, 1997(4):241-244.
[28]高山,孟潇,罗立新,等.核桃两种树形光合荧光特性的比较[J].北方园艺,2017(9):9-13.
[29]张治安,杨福,陈展宇,等.菰叶片净光合速率日变化及其与环境因子的相互关系[J].中国农业科学,2006,39(3):502-509.
[30]黄滔,刘玮,唐红,等.4个观赏竹种的光合特性及其影响因子分析[J].植物资源与环境学报,2016,25(1)24-33.
[31]余耀,王俊斌,丁博,等.低空气湿度对小麦气孔特性的影响[J].植物生理学报,2015,51(11):1991-1996.
[32]LANGEOL,LSCHR,SCHULZEED,etal.Responses of stomata to changes in humidity[J].Plant,1971,100:76-86
[33]DARWIN F.Observations on stomata[J].Proceedings of the Royal Society of London,1898,190:413-417.
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