Spatial variation in pollen δ13C correlates with temperature and seasonal development timing
2001
Loader, N. J. | Hemming, D. L.
Stable carbon isotope analyses were performed on the sporopollenin of modernPinus sylvestris pollen (δ¹³Cpollen) from a network of sites across Europe. A strong linear relationship (r² = 0.68 P 0.001) is observed between δ¹³Cpollen and mean temperature during the month prior to efflorescence. Although the duration of pollen development almost certainly varies between sites, these results support observations that the majority of pollen mass is accumulated during the last month of its formation and that the photosynthate used to form pollen has a δ¹³C composition reflecting climatic conditions during this development period. When the δ¹³Cpollen values are compared with mean annual temperature (MAT) or degrees latitude the data cluster around two regression lines. Both groups are positively correlated with temperature and decreasing latitude, one comprising pollen from sites north of δ50°N while the other is composed of sites south of this. The slope of the regression line is steeper for the northern group, indicating stronger temperature sensitivity. The transition in δ¹³Cpollen between the northern and southern groups coincides with a shift in the timing of the development period from May/June to April/May. The associated changes in development period tempera ture and δ¹³Cpollen across this transition are from 15°C and–25‰ for the most southern in the northern group to 9°C and–30‰ for the most northern in the southern group. If these initial results are representative of Pinus sylvestris throughout its distribution, δ¹³Cpollen of palaeorecords may be used to reconstruct past development period temperature and provide an indication of mean annual temperature.
Afficher plus [+] Moins [-]Mots clés AGROVOC
Informations bibliographiques
Cette notice bibliographique a été fournie par National Agricultural Library
Découvrez la collection de ce fournisseur de données dans AGRIS