Article citations

    J. M. Novak, W. J. Busscher, D. L. Laird, M. Ahmedna, D. W. Watts and M. A. S. Niandou, “Impact of Biochar Amendment on Fertility of a Southeastern Coastal Plain Soil,” Soil Science, Vol. 174, No. 2, 2009, pp. 105-112. doi:10.1097/SS.0b013e3181981d9a

has been cited by the following article:

  • TITLE: Impact of Simulated Airborne Soot on Maize Growth and Development
  • AUTHORS: Angela Anda, Berndett Illes
  • KEYWORDS: Black Carbon; Maize; Evapotranspiration; Albedo; Dry Matter Yield
  • JOURNAL NAME: Journal of Environmental Protection DOI: 10.4236/jep.2012.38092 Sep 05, 2014
  • ABSTRACT: Various effects of the dry deposition of soot on maize were investigated in Keszthely (Hungary) in two consecutive years. In order to be able to study a wider range of weather conditions, some of the plants were placed in a Thornthwaite-Matter type evapotranspirometer and given ad libitum water supplies. Pollution with airborne black carbon was simulated throughout the season by distributing rates of 3 g?m–2 a week using a motorised dust sprayer. Among the plant growth parameters, the leaf area index was increased by 3% - 14%, depending on the year, suggesting that the plants were able to absorb the carbon settling on the leaves. The black carbon reduced the albedo of the canopy by 17.5% - 21.8%, depending on the year, forcing the polluted maize to absorb more energy. Part of this surplus energy was utilised for increased evapotranspiration (3.9% and 11% in the two years) and to raise the surface temperature of the canopy by 1℃ - 2℃ during the mid-day hours. The effect of the contamination on maize was more intense in the hot, dry year. The unfavourable effect of soot on maize fertilisation could be observed as a significant increase in the number of deformed ears, leading to a reduction in grain dry matter. The reduction in dry matter yield for polluted maize grown with irrigation in the evapotranspirometer was far less severe than that on non-irrigated plots, suggesting that irrigation was the most obvious solution for mitigating the negative effects of contamination with airborne soot.