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Titolo:
THE EFFECTS OF LONG-TERM APPLICATIONS OF INORGANIC NITROGEN-FERTILIZER ON SOIL-NITROGEN IN THE BROADBALK WHEAT EXPERIMENT
Autore:
GLENDINING MJ; POWLSON DS; POULTON PR; BRADBURY NJ; PALAZZO D; LI X;
Indirizzi:
AFRC,INST ARABLE CROPS RES,DEPT SOIL SCI HARPENDEN AL5 2JQ HERTS ENGLAND
Titolo Testata:
Journal of Agricultural Science
, volume: 127, anno: 1996,
parte:, 3
pagine: 347 - 363
SICI:
0021-8596(1996)127:<347:TEOLAO>2.0.ZU;2-N
Fonte:
ISI
Lingua:
ENG
Soggetto:
NINHYDRIN-REACTIVE NITROGEN; MICROBIAL BIOMASS-C; ORGANIC-MATTER; WINTER-WHEAT; BIOCIDAL TREATMENTS; EXTRACTION METHOD; FUMIGATION; CYCLE; CHLOROFORM; ATMOSPHERE;
Tipo documento:
Article
Natura:
Periodico
Settore Disciplinare:
Science Citation Index Expanded
Science Citation Index Expanded
Citazioni:
59
Recensione:
Indirizzi per estratti:
Citazione:
M.J. Glendining et al., "THE EFFECTS OF LONG-TERM APPLICATIONS OF INORGANIC NITROGEN-FERTILIZER ON SOIL-NITROGEN IN THE BROADBALK WHEAT EXPERIMENT", Journal of Agricultural Science, 127, 1996, pp. 347-363

Abstract

The Broadbalk Wheat Experiment at Rothamsted (UK) includes plots given the same annual applications of inorganic nitrogen (N) fertilizer each year since 1852 (48, 96 and 144 kg N/ha, termed N-1, N-2 and N-3 respectively). These very long-term N treatments have increased total soil N content, relative to the plot never receiving fertilizer N (N-0),due to the greater return of organic N to the soil in roots, root exudates, stubble, etc (the straw is not incorporated). The application of 144 kg N/ha for 135 years has increased total soil N content by 21%,or 570 kg/ha (0-23 cm). Other plots given smaller applications of N for the same time show smaller increases; these differences were established within 30 years. Increases in total soil N content have been detected after 20 years in the plot given 192 kg N/ha since 1968 (N-4). There was a proportionally greater increase in N mineralization. Crop uptake of mineralized N was typically 12-30 kg N/ha greater from the N-3 and N-4 treatments than the uptake of c. 30 kg N/ha from the N-0 treatment. Results from laboratory incubations show the importance of recently added residues (roots, stubble, etc) on N mineralization. In short-term (2-3 week) incubations, with soil sampled at harvest, N mineralization was up to 60% greater from the N-3 treatment than from N-0. In long-term incubations, or in soil without recently added residues, differences between long-term fertilizer treatments were much less marked. Inputs of organic N to the soil from weeds (principally Equisetum arvense L.) to the N-0-N-2 plots over the last few years may have partially obscured any underlying differences in mineralization. The long-term fertilizer treatments appeared to have had no effect on soil microbial biomass N or carbon (C) content, but have increased the specificmineralization rate of the biomass (defined as N mineralized per unitof biomass). Greater N mineralization will also increase losses of N from the system, via leaching and gaseous emissions. In December 1988 the N-3 and N-4 plots contained respectively 14 and 23 kg/ha more inorganic N in the profile (0-100 cm) than the N-0 plot, due to greater N mineralization. These small differences are important as it only requires 23 kg N/ha to be leached from Broadbalk to increase the nitrate concentration of percolating water above the 1980 EC Drinking Water Quality Directive limit of 11.3 mg N/I. The use of fertilizer N has increased N mineralization due to the build-up of soil organic N. In addition, much of the organic N in Broadbalk topsoil is now derived from fertilizer N. A computer model of N mineralization on Broadbalk estimated that after applying 144 kg N/ha for 140 years, up to half of the N mineralized each year was originally derived from fertilizer N. In the short-term, the amount of fertilizer N applied usually has little directeffect on losses of N over winter. In most years little fertilizer-derived N remains in Broadbalk soil in inorganic form at harvest from applications of up to 192 kg N/ha. However, in two very dry years (1989 and 1990) large inorganic N residues remained at harvest where 144 and192 kg N/ha had been applied, even though the crop continued to respond to fertilizer N, up to at least 240 kg N/ha.

ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 20/09/20 alle ore 20:12:27