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The Stable Carbon Isotope Composition of Pinus yunnanensis Pollen and Leaf in Northwestern Yunnan, China
The basis for the δ13C values of plant tissues used to infer past ecological environments is their relationships with modern ecological conditions. A total of 71 pairs of pollen and leaf samples were collected from Pinus yunnanensis, an endemic species of the Yunnan plateau, in northwestern Yunnan, China. Their carbon isotopic composition was examined to investigate the two tissues’ difference of stable carbon isotopes, possible factors affecting their δ13C values, and their distinctiveness within Pinus and Pinaceae. Our study showed that pollen δ13C values range from −32.92 to −26.34‰ with an average of −30.88‰, whereas leaf δ13C values vary between −33.79 and −28.96‰ with an average value of −31.2‰, suggesting an isotope fractionation between the two tissues. A statistically significant negative correlation between the pollen δ13C values and altitudes of the sampling sites as well as no significant correlation between the leaf δ13C values and altitudes suggested that pollen may be more sensitive to some climatic parameters than leaf. A comparison of the pollen and leaf δ13C values from Pinus yunnanensis with the available data from other Pinus species and other genus species of Pinaceae indicated that the pollen and leaf δ13C values of Pinus yunnanensis are the lowest, partially due to the effects of water availability.
The Stable Carbon Isotope Composition of Pinus yunnanensis Pollen and Leaf in Northwestern Yunnan, China
The basis for the δ13C values of plant tissues used to infer past ecological environments is their relationships with modern ecological conditions. A total of 71 pairs of pollen and leaf samples were collected from Pinus yunnanensis, an endemic species of the Yunnan plateau, in northwestern Yunnan, China. Their carbon isotopic composition was examined to investigate the two tissues’ difference of stable carbon isotopes, possible factors affecting their δ13C values, and their distinctiveness within Pinus and Pinaceae. Our study showed that pollen δ13C values range from −32.92 to −26.34‰ with an average of −30.88‰, whereas leaf δ13C values vary between −33.79 and −28.96‰ with an average value of −31.2‰, suggesting an isotope fractionation between the two tissues. A statistically significant negative correlation between the pollen δ13C values and altitudes of the sampling sites as well as no significant correlation between the leaf δ13C values and altitudes suggested that pollen may be more sensitive to some climatic parameters than leaf. A comparison of the pollen and leaf δ13C values from Pinus yunnanensis with the available data from other Pinus species and other genus species of Pinaceae indicated that the pollen and leaf δ13C values of Pinus yunnanensis are the lowest, partially due to the effects of water availability.
The Stable Carbon Isotope Composition of Pinus yunnanensis Pollen and Leaf in Northwestern Yunnan, China
Wenjun Sun (author) / Caiming Shen (author) / Linpei Huang (author) / Hongwei Meng (author) / Binbin Ren (author)
2022
Article (Journal)
Electronic Resource
Unknown
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