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181.
Alan P. Sullivan 《Geoarchaeology》2000,15(4):291-313
Prehistoric stone alignments and their associated terraces are common in upland ecozones of the American Southwest. These features are generally considered the archaeological consequences of “runoff agriculture” dedicated to domesticated‐plant production. Furthermore, researchers have theorized that such production decreased soil fertility and ultimately promoted abandonment of the alignments, terraces, and surrounding landscapes. Recent investigations show that cultivated Mollisols indeed have less organic matter and less available P, and elevated pH, as well as several textural changes. In contrast, cultivated Aridisols have elevated CaCO3, available Ca, and cation‐exchange capacity, as well as no textural changes. The developing picture, however, is that small‐scale runoff agriculture has had largely benign effects on soil fertility and that anthropogenic terraces likely were abandoned for reasons unrelated to their productivity. © 2000 John Wiley & Sons, Inc. 相似文献
182.
Vanessa N.L. Wong Scott G. Johnston Richard T. Bush Leigh A. Sullivan Christina Clay Edward D. Burton Peter G. Slavich 《Estuarine, Coastal and Shelf Science》2010
A major fish kill occurred in the Richmond River estuary in January 2008 due to oxygen depletion following extensive overbank flooding. This paper examines spatial and temporal changes in the chemistry of main channel waters, thereby identifying the primary sources of deoxygenating water. Over 40 km of the mid- to lower estuary main channel was deoxygenated within seven days of the flood peak. Hypoxia was confined to downstream of the confluences with mid-estuary backswamp basins and occurred during the later phase of the flood recession. Water chemistry at key locations in the estuary indicated elevated concentrations of redox sensitive species associated with acid sulfate soils (ASS) during the hypoxic period. Peak concentrations of Fe2+ up to 18.2 μmol L−1, dissolved Mn up to 4.3 μmol L−1, chemical oxygen demand (COD) up to 2052 μmol L−1, dissolved organic carbon (DOC) up to 960 μmol L−1 and elemental S0 up to 4.7 μmol L−1 were found in the backswamp discharge confluences and mid-estuary main channel locations. The geochemical signature of main channel floodwaters identifies anaerobic decomposition of floodplain vegetation in ASS backswamps as a primary process leading to generation of hypoxic waters. The transport of these hypoxic floodwaters to the estuary has been accelerated and prolonged by extensive floodplain drainage, thereby enhancing the magnitude and duration of estuarine deoxygenation. 相似文献