[1]程琳琳,安锋*,谢贵水,等. 基于韧皮部纤维形态、树皮抗拉伸性能的橡胶树耐寒性研究[J].西北林学院学报,2023,38(3):47-54.[doi:10.3969/j.issn.1001-7461.2023.03.07]
 CHENG Lin-lin,AN Feng*,XIE Gui-shui,et al. Cold Resistance of Hevea brasiliensis Based on Phloem Fiber Morphology and Bark Tensile Properties[J].JOURNAL OF NORTHWEST FORESTRY UNIVERSITY,2023,38(3):47-54.[doi:10.3969/j.issn.1001-7461.2023.03.07]
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 基于韧皮部纤维形态、树皮抗拉伸性能的橡胶树耐寒性研究()
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《西北林学院学报》[ISSN:1001-7461/CN:61-1202/S]

卷:
第38卷
期数:
2023年第3期
页码:
47-54
栏目:
出版日期:
2023-05-31

文章信息/Info

Title:
 Cold Resistance of Hevea brasiliensis Based on Phloem Fiber Morphology and Bark Tensile Properties
文章编号:
1001-7461(2023)03-0047-08
作者:
 程琳琳12安锋12*谢贵水2蒋汇川1王纪坤12彭文涛12周立军12
 (1.中国热带农业科学院 橡胶研究所,海南 海口 571101;2.农业农村部 儋州热带作物科学观测实验站,海南 儋州 571737)
Author(s):
 CHENG Lin-lin12AN Feng12*XIE Gui-shui2JIANG Hui-chuan1WANG Ji-kun12PENG Wen-tao12ZHOU Li-jun12
 (1.Rubber Research Institute,CATAS,Haikou 571101,Hainan,China; 2.Danzhou Investigation&Experiment Station of Tropical Crops,Ministry of Agriculture and Rural Affairs,Danzhou 571737,Hainan,China)
关键词:
 橡胶树耐寒性韧皮部纤维形态树皮抗拉伸性能低温半致死温度(LT50
Keywords:
Hevea brasiliensis cold resistance phloem fiber morphology bark tensile property semi-lethal temperature (LT50)
分类号:
S794.1
DOI:
10.3969/j.issn.1001-7461.2023.03.07
文献标志码:
A
摘要:
 为探索不同品种橡胶树幼龄树耐寒性与成龄树枝条韧皮部纤维形态、树皮抗拉伸性能之间的关系,分析不同品种橡胶树耐寒性与其相应生理、生物力学指标的相关性,从而比较不同品种橡胶树耐寒性的差异,以期建立不同品种橡胶树幼龄树茎段与成龄树枝条树皮相应指标之间的联系,并从细胞结构及树皮生物力学角度研究橡胶树耐寒性机理。以热研7-33-97、PB86、IAN873、大丰95、云研77-2等5个橡胶树品种1年生芽接苗茎段及相应品种成龄树2年生枝条树皮为材料,测定低温梯度下茎段韧皮部电导率及枝条韧皮部纤维形态、树皮抗拉伸性能指标,利用Logistic方程确定其低温半致死温度(LT50)的大小,得出不同品种耐寒性,并采用Spearman相关性分析法,得出LT50与韧皮部纤维形态指标、树皮抗拉伸性能之间的相关性。结果表明,5个橡胶树品种韧皮部相对电导率呈“S”形曲线变化,相对电导率与胁迫温度之间呈极显著负相关,5个品种LT50分别为-2.075 ℃、-2.240 ℃、-1.923 ℃、-1.900 ℃、-2.186 ℃;5个品种纤维长度在2 921.013~4 799.438 μm,宽度在21.717~23.908 μm,双壁厚度分别为11.504、10.271、10.873、12.715、10.401 μm,腔直径分别为0.900、1.423、0.922、1.298、0.915 μm,PB86的纤维双壁厚最小,腔直径最大;5个品种树皮厚度分别为0.709、0.564、0.886、0.935、0.774 mm,PB86的树皮厚度与其他品种的差异达到了显著水平(P<0.05),5个品种拉伸破坏荷载在4.935~11.064 N,PB86的抗拉伸强度与最大拉伸位移均为5个品种最大,分别为3.629 MPa、1.360 mm;1年生茎段韧皮部LT50与成龄树2年生枝条韧皮部纤维双壁厚呈显著性正相关,与2年生树皮厚度、抗拉强度分别呈显著性正相关和显著性负相关。从细胞尺度与组织生物力学角度研究橡胶树耐寒性,以此搭建橡胶树幼龄树与成龄树联系的纽带,是橡胶树耐寒机理研究的有效途径。
Abstract:
 In order to explore relationship between cold resistance of different immature Hevea brasiliensis varieties’ stems and their mature tree branch phloem fiber morphology,bark tensile properties ,correlation between cold resistance of different varieties and their physiological and biomechanical indicators were analyzed.By comparing the cold resistance of different varieties,the connection between different immature varieties’ stem phloem and their mature tree branch barks could be construc.Moreover,it is useful for researching H.brasiliensis cold-resistance mechanisms from cell structure and biomechanical perspective.Firstly,electric conductivity of five varieties’ ( Reyan 7-33-97,PB86,IAN873,Dafeng 95,Yunyan 77-2) one-year-old seedling stem phloem under gradient low temperatures,phloem fiber morphology and bark tensile properties of mature two-year-old branches were studied.Then,semi-lethal temperature (LT50) of one-year-old seedling stem phloem were calculated respectively,by using Logistic equation.Thereupon,cold resistance orders of different varieties were ascertained.Consequently,the correlation between LT50 and phloem fiber morphology indexes,bark tensile properties were analyzed with Spearman’s correlation analysis method.The results showed that the variations of relative electric conductivity (REC) might be described as a typical S-shaped curve,and it appeared in an extremely significant negative correlation with the treatment temperatures.The LT50 of five varieties’ (Reyan 7-33-97,PB86,IAN873,Dafeng 95,Yunyan 77-2) stem were as following,-2.075,-2.240,-1.923,-1.900,and -2.186 ℃.Moreover,the fiber lengths ranged from 2 921.013 to 4 799.438 μm,their widths ranged from 21.717 to 23.908 μm,their double wall thicknesses were 11.504,10.271,10.873,12.715,and 10.401 μm,respectively,their lumen diameters were 0.900,1.423,0.922,1.298,and 0.915 μm,respectively.Therefore,the fiber double wall thickness of the variety PB86 was the thinnest,and its lumen diameter was the largest in five varieties studied.For bark tensile properties,their bark thicknesses were 0.709,0.564,0.886,0.935,and 0.774 mm,respectively,during which the bark thickness of the variety PB86 reached significant level (P<0.05) with other varieties.The tensile breaking load ranged from 4.935 to 11.064N,bark tensile strength and maximal tensile displacement of the variety PB86 were the maximum in all the five varieties,they were 3.629 MPa,1.360 mm,respectively.LT50 of one-year-old seeding stem phloem was positively correlated with the phloem fiber double wall thicknesses of the two-year-old branches.In addition,bark thicknesses and tensile strength of mature two-year-old branches had positive correlation of significance and obviously negative correlation with LT50, respectively.Therefore,it is an effective way to research the cold-resistance mechanisms from the perspective of cell scale and tissue biomechanics,which is also an important link between immature and mature H.brasiliensis trees.

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备注/Memo

备注/Memo:
 收稿日期:2021-12-13修回日期:2021-12-29
基金项目:海南省基础与应用基础研究计划(省自然科学基金)青年基金(321QN332);国家天然橡胶产业技术体系(CARS-33-ZP1);国家自然科学基金面上项目(31670633)。
第一作者:程琳琳,硕士,助理研究员。研究方向:橡胶树抗逆栽培生理生化。E-mail:chenglinlin2004@163.com
*通信作者:安锋,博士,研究员。研究方向:橡胶树抗逆栽培生理生态。E-mail:an-f@163.com
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