Abstract

Holocene lateral expansion and carbon accumulation within Luovuoma, a northern fen in Finnish Lapland, were examined utilizing stratigraphy, peat properties such as humification and macrofossil composition, 58 radiocarbon dates and the carbon content of 31 volumetric samples, in an attempt to understand variations in carbon accumulation over time. Paludification started about 9800 years ago. The lateral expansion of the mire was most rapid during phases subsequent to the first signs of paludification, with the result that by 5000 cal. yr BP 79% of the present area of Luovuoma supported mire vegetation. The mire initially expanded laterally at a relatively fast rate with an irregular outline, and only gradually attained its more regular existing form. This is corroborated by the amounts of carbon accumulated during different times: 58% of the carbon had formed before the time point of 5000 cal. yr BP. The long‐term net carbon accumulation rate, based on the vertical and lateral growth of the peat deposit, was 11.8 g C/m2/yr. Variations in carbon accumulation rates can be explained to a great extent by natural succession and variable local conditions, but the role of climate cannot be ignored. A marked decline in average carbon accumulation rates (from 26 to 9 g C/m2/yr) during the period between 7800 and 4900 cal. yr BP may indicate a relatively dry and warm climate. The levelling out and subsequent increase in carbon accumulation rates after 4900 cal. yr BP, with special reference to the youngest areas of Luovuoma, indicates a change to a predominantly cooler and moister climate. The stratigraphy of Luovuoma suggests that carbon exchange and accumulation by the mire has always been sensitive to climatic fluctuations, which have been characteristic of the entire Holocene.

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