一种常见的热带附生植物野穗子对水分和养分有效性变化的响应

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Xiao-Zhen Chen, J Aaron Hogan, Chiao-Ping Wang, Pei-Ling Wang, Teng-Chiu Lin
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引用次数: 0

摘要

附生植物高度依赖大气中水分和养分的输入。与气候变暖和气候变化以及持续的大气氮沉降相关的水分有效性降低会影响植物生长,但很少有研究评估水分和养分有效性的变化对附生植物的影响。我们通过实验测试了附生植物的生长是否更受水分或养分限制,氮或磷的养分限制是否更强,以及养分限制是否与水分可用性相互作用。本研究采用高、低水处理和营养添加(对照、+N、+P、+N+P)处理,对许多热带和亚热带潮湿森林中常见的附生蕨类植物野穗草(Asplenium nidus)进行处理。我们测量了叶面积产量和叶元素浓度,以评估白杨生长和生理对水分和养分有效性变化的响应。结果表明,水分有效性比养分添加对毛豆叶片生长的影响更大,在低水分有效性条件下,添加养分的效果没有得到充分发挥。在不同的营养处理中,+N+P在两个浇水处理中对野针茅生长和生理的影响最大。浇水处理改变了叶片元素浓度,但没有改变其比值(即C:N和N:P)。营养添加改变了C:N和N:P比值,增加了叶片中添加元素的浓度,其中高水分处理的增加更为明显。我们得出结论,野刺草的生长更多地受水分限制,而不是营养限制。当养分限制发生时(即在高水分有效度下),养分的共同限制比单靠氮或磷的限制更强。这一结果与其他附生植物的研究一起表明,在附生植物中,水分限制可能普遍大于营养限制。在低水分处理中,养分添加的影响有限,说明当水分有效度较低时,大气氮沉降对附生植物生长的影响有限。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Responses of a common tropical epiphyte, Asplenium nidus, to changes in water and nutrient availability
Abstract Epiphytes are highly dependent on atmospheric inputs of water and nutrients. Reductions in water availability associated with warming and climate change and continual atmospheric nitrogen (N) deposition can affect plant growth but few studies have evaluated the effects of changes in both water and nutrient availabilities on epiphytes. We experimentally tested whether epiphyte growth is more water- or nutrient-limited, if nutrient limitation was stronger for nitrogen or phosphorus, and whether nutrient limitation interacts with water availability. We applied watering (high and low) and nutrient addition (control, +N, +P, +N+P) treatments to greenhouse-grown Asplenium nidus, a common epiphytic fern found in many tropical and subtropical wet forests. We measured leaf area production and leaf elemental concentrations to assess how A. nidus growth and physiology respond to changes in water and nutrient availabilities. We found that leaf growth of A. nidus was more affected by water availability than nutrient addition and the effect of adding nutrients was not fully realized under low water availability. Among the different nutrient treatments, +N+P had the greatest effects on A. nidus growth and physiology in both watering treatments. Watering treatment changed leaf elemental concentrations but not their ratios (i.e., C:N and N:P). Nutrient addition altered C:N and N:P ratios and increased the concentration of the added elements in leaves, with more pronounced increases in the high-watering treatment. We conclude that the growth of A. nidus is more water- than nutrient-limited. When nutrient limitation occurs (i.e., under high water availability), nutrient co-limitation is stronger than limitation by N or P alone. This result taken together with studies of other epiphytes suggests greater water than nutrient limitation is likely widespread among epiphytic plants. The limited effects of nutrient addition in the low-water treatment suggest that the effect of atmospheric N deposition on epiphyte growth will be limited when water availability is low.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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