Rates of carbon ingrowth and nutrient release from young Icelandic basalts understand what drives the variations in the contents of mineral P in Icelandic soils, because mineral P is a critical factor in the development of soils and functio- ning of terrestrial ecosystems, particularly in a rocky environment. Figure 6. Comparison of organic C and P fractions in soils derived from four lava flows in Iceland. n=1, 2, 2 and 3 for 1783, 1554, 1300 and 934 AD flows, respectively. – Samanburður á lífrænu kolefni og fosfór í jarðvegi á Skaftáreldahrauni, Hekluhraunum frá 1554 og 1300 og Eldgjárhrauni. A concurrent examination of organic C and P con- tents in soils derived from various lava flows can re- veal the role of biomass production and weathering of substrates in soil formation. Both elements increased in soil organic matter as a function of time, but thro- ugh two different pathways. The ingrowth of organic C in soil profiles is through the sequestration of atmo- spheric CO2 by photosynthesis. The increase of or- ganic P, in contrast, is through the transformation of P stored in rock minerals and from airborne sources into organicmolecules via plant root uptake and biological use of P as an essential nutrient. Thus, C ingrowth is from the atmosphere while P ingrowth is mostly from the lithosphere. Despite their different ingrowth pa- thways, organic C and P showed similar patterns of accumulation in the soil over time (Figure 6). Results from our study demonstrated that the ingrowth of or- ganic P in the soil was primarily facilitated by the in- creasing plant and microbial activities, which would increase organic P to a greater extent than other frac- tion of soil P. Our results also demonstrated the inter- play of the biogenic activities responsible for the ac- cumulation of C and P that differ in biogeochemical pathways in the sub-arctic ecosystem in Iceland. In summary, our study showed basalt-derived An- dosols in southern Iceland exhibited a number of geo- chemical changes over the last millennium. Biologi- cal activities in the soil have been increasing in the soil over time as evidenced by the increases in both orga- nic C and P. In addition, changes in the concentrations of organic and occluded P demonstrated that weathe- ring of parent rock is continuously occurring in this ecosystem. Our results suggest that biological acti- vity and weathering of parent rock occur concurrently in southern Iceland, each process acting to facilitate and accelerate the other. These processes will gradu- ally change the storage capacity for C in the soils and alter the cycling patterns of essential nutrients, such as C and P, in these fragile but important ecosystems. Acknowledgements We thank Andrew Wolf, Lenore Tedesco, Kathy Licht, Jeff Swope, Leda Casey, Nick Kauffman and other members of the Iceland field project for their help in the field. Support for this research came from Undergraduate Research Opportunity Program (UROP) and the U.S. National Science Foundation (BCS–9911526 to GF and CS). JÖKULL No. 57 43

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