Seasonal variations in leaf δ<sup>13</sup>C and nitrogen associated with foliage turnover and carbon gain for a wet subalpine fir forest in the Gongga Mountains, eastern Tibetan Plateau

Luo, Tianxiang; Li, Mingcai; Luo, Jing

doi:10.1007/s11284-010-0779-y

Cited by 10 publications

(1 citation statement)

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“…Because the process of water cycle in plants drives the process of nutrient accumulation, leaf δ 13 C and ecological stoichiometry must be related. Some studies have confirmed that leaf nutrient and ecological stoichiometry are closely related to photosynthetic carbon sequestration and water use efficiency [25][26][27][28][29]. For example, leaf nitrogen content has a limiting effect on photosynthetic process [30][31][32][33], In addition, leaf δ 13 C and nitrogen had a coordinated variation relationship [34][35][36][37][38][39][40][41].…”

Section: Introductionmentioning

confidence: 99%

Stable Carbon Isotope (δ13C) Composition in Leaf of Pinus Sylvestris var. mongolica in Hulunbuir and its Relationship with Ecological Stoichiometry and Environmental Factors

Ren¹,

Qiu²,

Shen³

et al. 2021

Preprint

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The decline in Pinus sylvestris var. mongolica in the introduction area has had a high profile in recent years. For the ecological restoration, management and silvicultural design of Mongolian pines in the introduction area, it is necessary to conduct a comprehensive and in-depth study on the ecological adaptation mechanism of Mongolian pines in provenances. The ecological process of water and nutrient accumulation as well as the influence of environmental factors on the photosynthetic physiology are the key to revealing the ecological adaptation mechanism of Mongolian pines. According to the differences of climate in the distribution area of Mongolian pines, sampling sites were set up, the effects of environmental factors on leaf δ13C and the relationship between leaf δ13C and nutrient content were analyzed. The results showed that leaf δ13C values were ranging from - 29.7 &permil; to - 23.76 &permil;. The ecological stoichiometry, including LC (522.81 mg·g-1), LN (16.04 mg·g-1), LP (1.19 mg·g-1) and L-N:P (13.56), indicated that leaf photosynthesis and water use efficiency is greatly affected by environmental conditions, Mongolian pines had strong ability of carbon fixation, and its growth was obviously restricted by nitrogen. Although there was no significant correlation between δ13C with stoichiometric parameters in leaf, photosynthesis was the key link in the process of carbon fixation. It also showed that Pinus sylvestris var. mongolica was a stomatal limited plant. Leaf δ13C had significant correlation with climatic factors. VPD is the dynamic factor affecting the photosynthetic physiological process in leaves. Air and soil moisture are the dominate factors affecting the leaf stomatal conductance and determines leaf δ13C value, while other factors indirectly affect leaf δ13C by its impact on relative humidity or soil water content. Soil phosphorus content affected by clay is a key factor affecting soil water availability and soil nutrient cycling. Photosynthetic process in leaf is the dynamic process affecting the nutrient accumulation.

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Section: Introductionmentioning

confidence: 99%

Stable Carbon Isotope (δ13C) Composition in Leaf of Pinus Sylvestris var. mongolica in Hulunbuir and its Relationship with Ecological Stoichiometry and Environmental Factors

Ren¹,

Qiu²,

Shen³

et al. 2021

Preprint

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Annual ring widths are good predictors of changes in net primary productivity of alpine Rhododendron shrubs in the Sergyemla Mountains, southeast Tibet

Kong,

Luo,

Liu

et al. 2012

Plant Ecol

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Differential responses of Abies fabri and Rhododendron calophytum at two sites with contrasting pollution deposition and available calcium in southwestern China

Liu

Chen

et al. 2013

Plant Ecol

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Seasonal variations in leaf δ¹³C and nitrogen associated with foliage turnover and carbon gain for a wet subalpine fir forest in the Gongga Mountains, eastern Tibetan Plateau

Cited by 10 publications

References 59 publications

Stable Carbon Isotope (δ13C) Composition in Leaf of Pinus Sylvestris var. mongolica in Hulunbuir and its Relationship with Ecological Stoichiometry and Environmental Factors

Stable Carbon Isotope (δ13C) Composition in Leaf of Pinus Sylvestris var. mongolica in Hulunbuir and its Relationship with Ecological Stoichiometry and Environmental Factors

Annual ring widths are good predictors of changes in net primary productivity of alpine Rhododendron shrubs in the Sergyemla Mountains, southeast Tibet

Differential responses of Abies fabri and Rhododendron calophytum at two sites with contrasting pollution deposition and available calcium in southwestern China

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Seasonal variations in leaf δ13C and nitrogen associated with foliage turnover and carbon gain for a wet subalpine fir forest in the Gongga Mountains, eastern Tibetan Plateau

Cited by 10 publications

References 59 publications

Stable Carbon Isotope (δ13C) Composition in Leaf of Pinus Sylvestris var. mongolica in Hulunbuir and its Relationship with Ecological Stoichiometry and Environmental Factors

Stable Carbon Isotope (δ13C) Composition in Leaf of Pinus Sylvestris var. mongolica in Hulunbuir and its Relationship with Ecological Stoichiometry and Environmental Factors

Annual ring widths are good predictors of changes in net primary productivity of alpine Rhododendron shrubs in the Sergyemla Mountains, southeast Tibet

Differential responses of Abies fabri and Rhododendron calophytum at two sites with contrasting pollution deposition and available calcium in southwestern China

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Seasonal variations in leaf δ¹³C and nitrogen associated with foliage turnover and carbon gain for a wet subalpine fir forest in the Gongga Mountains, eastern Tibetan Plateau