Phenology and water relations of treeline species of Western Himalaya, India

IF 1.4 4区生物学 Q3 PLANT SCIENCES

Brazilian Journal of Botany Pub Date : 2024-03-02 DOI:10.1007/s40415-024-00989-x

Nandan Singh, Ashish Tewari, Shruti Shah, Amit Mittal

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Abstract

Many regions of Himalayas are warming more than global average rate, and treeline is assumed to be sensitive to changes in the climate. The Indian Himalayan treeline species are very less studied on water stress level and its relation to phenology. In the present study, we have tried to relate water relations of selected treeline species with the timing of phenological phases in treeline areas of western Himalayan region of Uttarakhand. The soil moisture content (S_m) varied between 33.21 and 59.16%. Most phenological phases occurred between pre-summer and summer season in all studied treeline species. The water potential (Ψ) of all the studied tree species increased just before the commencement of leafing and flowering phases when the temperature rose. The species never encountered severe water stress and the pre-dawn water potential (Ψ_PD) remained above − 1.04 MPa across all the phenological phases. Ψ_PD was most negative − 1.04 MPa during flowering period and least negative − 0.14 MPa during fruit maturation period. Morning leaf conductance (gw_AM) remained above 304.59 m mol m² s⁻¹ across all the seasons for all the studied species. Rhododendron’s species had the maximum phenological phases during summer season. The highest gw_AM was measured in Betula utilis during rainy season and minimum in R. campanulatum during winter season. Leafing and flowering both showed a positive correlation with temperature while fruiting showed a positive correlation with rainfall. The study reveals that the water potential does not reach lethal level to curtail phenological and physiological activities in treeline species. The timing of phenophases in these species is highly sensitive to seasonal rainfall and soil water availability, with temperature also directly influencing the controlling/shifting of the phenophases.

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印度西喜马拉雅山脉树线物种的物候和水分关系

喜马拉雅山脉许多地区的变暖速度超过了全球平均水平，因此树线被认为对气候变化非常敏感。对印度喜马拉雅山脉树线物种的水分胁迫水平及其与物候学关系的研究非常少。在本研究中，我们试图将选定的树线物种的水分关系与北阿坎德邦喜马拉雅西部树线地区的物候期时间联系起来。土壤含水量（Sm）介于 33.21% 和 59.16% 之间。在所有研究的树线物种中，大部分物候期发生在夏季前和夏季之间。当温度升高时，所有研究树种的水势（Ψ）都会在落叶期和开花期开始前上升。这些树种从未遇到严重的水分胁迫，黎明前的水势（ΨPD）在所有物候期都保持在-1.04兆帕以上。开花期的ΨPD负值最大-1.04 兆帕，果实成熟期的负值最小-0.14 兆帕。所有研究物种的晨叶电导率（gwAM）在所有季节都保持在 304.59 m mol m2 s-1 以上。杜鹃花物种的最大物候期在夏季。Betula utilis 在雨季测得的 gwAM 最高，而 R. campanulatum 在冬季测得的 gwAM 最低。叶期和花期都与温度呈正相关，而果期则与降雨量呈正相关。研究结果表明，水势达不到致命水平时，树线物种的物候和生理活动不会受到抑制。这些物种的物候期时间对季节性降雨和土壤水分供应高度敏感，温度也直接影响物候期的控制/转移。

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来源期刊

Brazilian Journal of Botany Agricultural and Biological Sciences-Plant Science

CiteScore

3.00

自引率

12.50%

发文量

期刊介绍： The Brazilian Journal of Botany is an international journal devoted to publishing a wide-range of research in plant sciences: biogeography, cytogenetics, ecology, economic botany, physiology and biochemistry, morphology and anatomy, molecular biology and diversity phycology, mycology, palynology, and systematics and phylogeny. The journal considers for publications original articles, short communications, reviews, and letters to the editor. Manuscripts describing new taxa based on morphological data only are suitable for submission; however information from multiple sources, such as ultrastructure, phytochemistry and molecular evidence are desirable. Floristic inventories and checklists should include new and relevant information on other aspects, such as conservation strategies and biogeographic patterns. The journal does not consider for publication submissions dealing exclusively with methods and protocols (including micropropagation) and biological activity of extracts with no detailed chemical analysis.