Tian-Xiang Li scite author profile

Dioecious plant populations possess sex ratio and gender distribution of individuals, which are important for individual reproduction, population viability, natural regeneration and maintenance of genetic diversity. This is particularly true for rare and endangered dioecious ones. In China, Taxus fuana is among the 120 Wild Plant with Extremely Small Populations (WPESP) and observed only in the Jilong County of Tibet Autonomous Region. However, little has been reported about its population ecology, especially about its sex ratio and gender spatial distribution pattern of individuals. We did a field investigation for six T. fuana populations in Jilong and recorded 1,651 male and 1,231 female individuals in total, whereby its sex ratio and gender spatial distribution pattern of individuals per population were analyzed. Our results showed that Jipu

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Intraspecific and sex-dependent variation of leaf traits along altitude gradient in the endangered dioecious tree Taxus fuana Nan Li & R.R. Mill

Shen-Tu

et al. 2022

Front. Plant Sci.

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Plant intraspecific trait variation (ITV) including sex-dependent differences are matters of many ecological consequences, from individual to ecosystem, especially in endangered and rare species. Taxus fuana is an endangered dioecious species with small and isolated populations endemic to the Himalayas region. Little is known about its trait variation between sexes, and among populations. In this study, 18 leaf traits from 179 reproductive trees (males and females) along the altitude (2600-3200m a.s.l.) of the T. fuana populations distributed in Gyirong County, Tibet, China, were measured. ITV and sources of variation in leaf traits were assessed. The relationship between leaf traits of males and females and altitude was analyzed separately. Variations in leaf traits of T. fuana ranged from 3.1% to 24.2%, with the smallest in leaf carbon content and the largest in leaf thickness to area ratio. On average 78.13% of the variation in leaf traits was from within populations and 21.87% among populations. The trends in leaf width, leaf nitrogen to phosphorus ratio, leaf carbon to nitrogen ratio, leaf carbon isotope ratio, and leaf nitrogen isotope ratio in relation to altitude were the same for males and females. Leaf length to width ratio varied significantly with altitude only in males, while leaf phosphorus content, leaf nitrogen content, and leaf carbon to phosphorus ratio varied significantly with altitude only in females. The correlation coefficients of most leaf traits of females with altitude were larger than that of males. In the relationship between leaf traits, there was a high similarity among males and females, but the altitude accounted for more explanation in females than in males. Our results suggested that the variation in leaf traits of T. fuana was small and did not dominate the interspecific competition in the local communities. Adaptation to the altitude gradient of T. fuana might be through altering nutrient storage processes and water use efficiency. Adaptation of male and female T. fuana to environmental changes showed differences, where the males were more tolerant and the females responded greatly to altitude. The differences in adaptation strategies between male and female T. fuana may be detrimental to the maintenance of their populations.

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Tian-Xiang Li

Novel evidence from Taxus fuana forests for niche-neutral process assembling community

Sex ratio and spatial pattern of <i>Taxus fuana</i>, a Wild Plant with Extremely Small Populations in Tibet

Intraspecific and sex-dependent variation of leaf traits along altitude gradient in the endangered dioecious tree Taxus fuana Nan Li & R.R. Mill

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