Abstract
Dust deposition is an important source of phosphorus (P) to many ecosystems. However, there is little evidence of dust-derived P-containing minerals in soils. Here we studied P forms along a well-described climatic gradient on Hawaii, which is also a dust deposition gradient. Soil mineralogy and soil P forms from six sites along the climatic gradient were analyzed with bulk (X-ray diffraction and P K-edge X-ray absorption near edge structure) and microscale (X-ray fluorescence, P K-edge X-ray absorption near edge structure, and Raman) analysis methods. In the wettest soils, apatite grains ranging from 5 to 30 µm in size were co-located at the micro-scale with quartz, a known continental dust indicator suggesting recent atmospheric deposition. In addition to co-location with quartz, further evidence of dust-derived P included backward trajectory modeling indicating that dust particles could be brought to Hawaii from the major global dust-loading areas in central Asia and northern Africa. Although it is not certain whether the individual observed apatite grains were derived from long-distance transport of dust, or from local dust sources such as volcanic ash or windblown fertilizer, these observations offer direct evidence that P-containing minerals have reached surface layers of highly-weathered grassland soils through atmospheric deposition.
Highlights
Phosphorus (P) is an essential element for all forms of life, and P availability is an important driver of ecosystem function and productivity (Westheimer, 1987)
Soil mineralogy and soil P forms from six sites along the climatic gradient were analyzed with bulk (X-ray diffraction and P K-edge X-ray absorption near edge structure) and microscale (X-ray fluorescence, P K-edge X-ray absorption near edge structure, and Raman) analysis methods
Differences in soil mineralogy between sites and horizons within the same domain were small compared to differences between soil samples from different domains (Fig. 1), as predicted by Vitousek and Chadwick (2013)
Summary
Phosphorus (P) is an essential element for all forms of life, and P availability is an important driver of ecosystem function and productivity (Westheimer, 1987). Bristow et al (2010) calculated that approximately 22 Mt of dust are imported from the Sahara Desert to the Amazon Basin annually. Based on the amount of P in the dust from dust traps (0.59–0.94 g P kg−1 dust), the average P input in the Amazon Basin is around 0.12–0.42 kg P ha−1 yr−1 (Bristow et al, 2010), which in strongly weathered soils may exceed the annual resupply of available P from continued weathering (Chadwick et al, 1999). Though it is well known that P from dust may play an important role in ecosystem productivity (Chadwick et al, 1999; Eger et al, 2013; Gu et al, 2019; Okin et al, 2004), apatite dust has not been directly observed in highlyweathered soil environments, from which parent material-derived apatite has weathered away
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