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David Allen Laird : ウィキペディア英語版 | David Allen Laird
David Alan Laird is a professor at Iowa State University, Department of Agronomy, Ames, Iowa. Throughout his career as a soil scientist, he made many contributions to clay mineralogy, including developing a model describing the relationship between cation selectivity and the extent of crystalline swelling in expanding 2:1 phyllosilicates.〔Laird, D.A and Shang, C. 1997. Relationship Between Cation Exchange Selectivity and Crystalline Swelling in Expanding 2:1 Phyllosilicates. Clays and Clay Minerals 45(5): 681-689〕 Other work demonstrated the effects of ionic strength and cation charge on the breakup and formation of smectitic quasicrystals and the principle of cation demixing〔Pils, J.R.V., Laird, D.A., and Evangelou, V.P. 2007. Role of cation demixing and quasicrystal formation and breakup on the stability of smectitic colloids. Applied Clay Science 35(3,4): 201-211〕 which lent great insight into understanding clay flocculation. Investigations in organic matter interactions with clay minerals led to the development of the idea of dual mode bonding in which amphipathic molecules interact with substrates by both hydrophobic-hydrophobic and hydrophilic-hydrophilic interactions. Laird et al. (2008) showed that smectites, a class of clay minerals found in soil, can adsorb tremendous amounts of organic materials and, hence, strongly influence the transport and bioavailability of organic materials including pesticides applied to the soil.〔Laird, D.A., Chappell, M.A., Martens, M.A., Wershaw, R.L., and Thompson, M.L. 2008. Distinguishing black carbon from biogenic humic substances in soil clay fractions. Geoderma 143: 115-122〕 In a study published in 2003, Gonzalez and Laird showed that new carbon derived from decomposing plant material tends to preferentially sorb to the fine clay subfraction of soil.〔Gonzalez, J.M., Laird, D.A., 2003. Carbon sequestration in clay mineral fractions from 14C-labeled plant residues. Soil Science Society of America Journal 67, 1715–1720〕 Further work demonstrated that the coarse clay fraction had the greatest carbon to nitrogen ratio, greatest minimum residence time in the soil based on 14C radioisotope dating, and contained carbon most recalcitrant to microbial digestion.〔Laird, D.A., Chappell, M.A., Martens, M.A., Wershaw, R.L., and Thompson, M.L. 2008. Distinguishing black carbon from biogenic humic substances in soil clay fractions. Geoderma 143: 115-122〕 Collectively many of Dr. Laird's contributions to soil science have provided insight into understanding soil organic matter and clay interactions and, thus, the genesis of soil peds from the molecular viewpoint. More recent work has been focused on identifying pyrogenic carbon in soil with an emphasis on biochar soil application and studying the impact of biochar on soil properties. He also founded and led the USDA-ARS Biochar and Pyrolysis Initiative from 2008 - 2010 and has made continued contributions in the characterization of biochar and understanding its role in soil environments.〔Fidel, R.B., Laird, D.A., and Thompson, M.L. 2013. Evaluation of Modified Boehm Titration Methods for Use with Biochars. Journal of Environmental Quality. 42:1771-177〕〔Allen, R.M. and Laird, D.A. 2013. Quantitative prediction of biochar soil amendments by near-infrared reflectance spectroscopy. Soil Sci. Soc. Am. J. 77:1784-1794 doi:10.2136/sssaj2013.03.0118〕〔Basso, A.S., F.E. Miguez, D.A. Laird, R. Horton, and M. Westgate. 2013. Assessing potential of biochar for increasing water-holding capacity of sandy soils. GCB Bioenergy. 5: 132–143. DOI: 10.1111/gcbb.12026Ippolito, J.A., D.A. Laird, and W.J. Busscher. 2012. Environmental benefits of biochar. J. Env. Qual. 41:967-972〕〔Rogovska, N.P., D. L. Laird, R.M. Cruse, S. Trabue, E. Heaton. 2012. Germination tests for assessing biochar quality. J. Env. Qual. 41:1014-1022〕 == Notes and references ==
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