草食和开沟对桑科凤梨总生长的影响

IF 0.8 4区 生物学 Q4 PLANT SCIENCES
Bothalia Pub Date : 2021-01-15 DOI:10.15446/ABC.V26N2.83289
Edgar Fernando Carrillo Herrera, Susana Ariely Dzib Ek, Horacio Salomón Ballina Gómez
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引用次数: 1

摘要

植物的补偿性生长和防御是植物对草食和光照的响应。通过植物生长的形态和生理成分的影响来解释代偿性生长反应的研究,分配质量和植物防御可以阐明这一过程。研究了草食和缝隙开放对半湿润热带森林白矾(Brosimum alicastrumin)幼苗代偿性生长反应、形态生理成分、分配质量和化学防御的影响。我们采用巢式设计,在每个复制点内设置林下植被和空隙开放点(每个n = 3),幼苗分为三种草食处理(每个n = 10):对照、模拟和自然;在6个月的时间里,我们研究了叶片食草对植物生长(质量、叶面积、高度、直径和叶片产量)、酚类物质产量和叶片韧性的影响。我们记录了自然草食的补偿性生长响应(所有植物生长变量),模拟草食的亚补偿性(质量、高度和直径)和自然草食的过度补偿性(叶片产量),尽管只有在间隙开放的情况下。林隙开放条件下的叶面积比(LAR)和比叶面积(SLA)较高,林下净同化率(NAR)较高。林下叶和茎的质量比例最高,林隙开放下的根质量比例最高。林隙开阔条件下叶片的取草性最高,林隙开阔条件下叶片的酚类含量最高。我们没有发现防御与植物生长之间的关系(权衡),但有可能强调在林下等有限资源环境下叶酚的负向模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influencia de la herbivoría y la apertura de claros sobre el crecimiento total de Brosimum alicastrum (Moraceae)
Compensatory plant growth and plant defense are responses to deal with herbivory and light availability. The research focused on compensatory growth responses explained through the influence of morphological and physiological components of plant growth, allocation mass, and plant defense could clarify such process. We studied the effects of herbivory and gap-openness on compensatory growth responses, morphological and physiological components, allocation mass, and chemical defenses in seedlings of Brosimum alicastrumin a subhumid tropical forest. We used a nested design with understory and gap-openness site (n = 3 each) within each replicated site seedling belong to three herbivory treatments (n = 10 each): control, simulated, and natural; and along six months we studied the influence of leaf herbivory on plant growth (mass, leaf area, height, diameter, and leaf production) and production of phenols and leaf toughness. We recorded compensatory growth responses (all plant growth variables) with natural herbivory, subcompensatory (mass, height, and diameter) with simulated and, overcompensatory (leaf production) with natural herbivory although only under gap-openness. We found a higher leaf area ratio (LAR) and specific leaf area (SLA) (both morphological components) under gap-openness and high values of net assimilation rate (NAR) on understory. The mass proportion was highest in leaves and stems on the understory and higher in roots under gap-openness. Leaf herbivory was highest under gap-openness while the phenols of the leaves on understory. We did not find a relationship (trade-off) between defense with plant growth, but it was possible to underline a negative pattern of the leaf phenols under limiting resources environment such as understory.
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来源期刊
Bothalia
Bothalia 生物-植物科学
CiteScore
1.70
自引率
0.00%
发文量
12
期刊介绍: Bothalia: African Biodiversity & Conservation is published by AOSIS for the South African National Biodiversity Institute (SANBI) and aims to disseminate knowledge, information and innovative approaches that promote and enhance the wise use and management of biodiversity in order to sustain the systems and species that support and benefit the people of Africa. The journal was previously published as Bothalia, and had served the South African botanical community since 1921. However the expanded mandate of SANBI necessitated a broader scope for the journal, and in 2014, the subtitle, African Biodiversity & Conservation was added to reflect this change.
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