Mark R. Finlay scite author profile

There is concern that modern cultivars and/or agronomic practices have resulted in reduced concentrations of mineral elements essential to human nutrition in edible crops. Increased yields are often associated with reduced concentrations of mineral elements in produce, and a number of recent studies have indicated that, when grown under identical conditions, the concentrations of several mineral elements are lower in genotypes yielding more grain or shoot biomass than in older, lower-yielding genotypes. Potato is a significant crop, grown worldwide, yet few studies have investigated whether increasing yields, through agronomy or breeding, affects the concentrations of mineral elements in tubers. This article examines the hypothesis that increasing yields, either by the application of mineral fertilizers and/or by growing higher-yielding varieties, leads to decreased concentrations of mineral elements in tubers. It reports that the application of fertilizers influences tuber elemental composition in a complex manner, presumably as a consequence of soil chemistry and interactions between mineral elements within the plant, that considerable variation exists between potato genotypes in the concentrations of mineral elements in their tubers, and that, like in other crops, higher-yielding genotypes occasionally have lower concentrations of some mineral elements in their edible tissues than lower-yielding genotypes.

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Processes Affecting Agricultural Drainwater Quality and Organic Carbon Loads in California's Sacramento-San Joaquin Delta

Deverel¹,

Leighton²,

Finlay³

2007

SFEWS

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From 2000 to 2003 we quantified drain flow, drainand ground-water chemistry and hydrogeologic conditions on Twitchell Island in the Sacramento-San Joaquin Delta. The primary objective was to quantify processes affecting organic carbon concentrations and loads in agricultural drainage water. We collected physical and chemical data in southern and northern areas: TN and TS, respectively. Corn grew in both areas during the spring and summer. The peat soils in the TN area are more decomposed than those in the TS area. Results elucidate processes affecting drain flow and concentrations under varying hydrologic conditions. During May through November, groundwater flows from the permanently saturated zone to drainage ditches, and the resulting average drainagewater quality and dissolved organic carbon (DOC) concentration was similar to the groundwater; the median DOC loads in the TN and TS study areas ranged from 9 to 27 g C/ha-day. The major ion chemistry and stable isotope data confirmed that groundwater was the primary source of drainflow. In contrast, during December through April the drainwater is supplied from the shallow, variably saturated soilzone. The DOC concentrations, major-ion chemistry and stable isotope data indicate the shallow-zone water is partially evaporated and oxidized. Higher flows and DOC concentrations during these months result in higher median DOC loads, which ranged from 84 to 280 g C/ha-day.During December through April, increasing groundwater levels in the shallow peat layers and mobilization of organic carbon result in high drain flow and increased trihalomethane precursor concentrations and loads. On a per mass DOC basis, drain water collected during high flow periods is less likely to form THMs than during low flow periods. However, the high flows and subsequent high concentrations contribute to substantially higher trihalomethane precursor and DOC loads. KEYWORDSagricultural drainage, organic carbon, drinking water quality, disinfection byproducts, organic soils

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Old Efforts at New Uses: A Brief History of Chemurgy and the American Search for Biobased Materials

Finlay

2003

J of Industrial Ecology

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SummaryThe American search for biobased and renewable raw materials has a long history of intermittent success and frustration. This article traces the history of the chemurgy movementa precursor to what are now sometimes called agricultural "new uses" initiatives-from its context of the 1920s through its emergence as a political force in the mid-1930s, when chemurgy offered a strategy for industries and governments interested in reviving the agricultural economy and reducing dependence upon foreign sources of industrial raw materials. Chemurgists put pressure upon the U.S. Department of Agriculture to devote greater attention to crop utilization research, efforts that were operational in time to make important contributions to the U.S. economy during World War II. This article devotes considerable attention to the postwar era, a period not discussed in most histories of chemurgy. The article concludes with a tentative assessment of issues that caused chemurgy to falter in the past as well as precautionary lessons for the contemporary study of biobased materials.

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Science, practice and politics: German agricultural experiment stations in the nineteenth century

Finlay

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has been reproduced from the microfilm master. UMI films the text directly fi*om the original or copy submitted. Thus, some thesis and dissertation copies are in typewriter face, while others may be fi-om any type of computer printer.The quality of this reproduction is dependent upon the quality of the copy submitted. Broken or indistinct print, colorcd or poor quality illustrations and photographs, print bleedthrough, substandard margins, and improper alignment can adversely affect reproduction.

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Mark R. Finlay

Effect of forage/concentrate ratio and dietary coconut oil level on methane output and performance of finishing beef heifers

Relationships Between Yield and Mineral Concentrations in Potato Tubers

Processes Affecting Agricultural Drainwater Quality and Organic Carbon Loads in California's Sacramento-San Joaquin Delta

Old Efforts at New Uses: A Brief History of Chemurgy and the American Search for Biobased Materials

Science, practice and politics: German agricultural experiment stations in the nineteenth century

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