Micronutrients in the Soil and Wheat: Impact of 84 Years of Organic or Synthetic Fertilization and Crop Residue Management

Crop residues are an important source of plant nutrients. However, information on the various methods of residue management on micronutrients in soil and wheat (Triticum aestivum L.) over time is limited. A long-term (84-year) agroecosystem experiment was assessed to determine the impact of fertiliz...

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Published inAgronomy (Basel) Vol. 9; no. 8; p. 464
Main Authors Shiwakoti, Santosh, Zheljazkov, Valtcho D., Gollany, Hero T., Kleber, Markus, Xing, Baoshan, Astatkie, Tess
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 19.08.2019
Subjects
Agricultural ecosystems
Agriculture
Animal manures
Arid zones
Biomass
boron
Burning
Copper
Crop management
Crop residues
Crops
Experiments
Fertilization
Fertilizers
Grain
Hypotheses
iron
Loam soils
Management methods
Manganese
Manures
Micronutrients
Nutrients
Pasture
Precipitation
residue burn
Residues
Soil chemistry
Soil management
Soil pH
Soils
Straw
Triticum aestivum
Vines
Wheat
Winter wheat
Zinc
Columbia Basin
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Summary:Crop residues are an important source of plant nutrients. However, information on the various methods of residue management on micronutrients in soil and wheat (Triticum aestivum L.) over time is limited. A long-term (84-year) agroecosystem experiment was assessed to determine the impact of fertilizer type and methods of crop residue management on micronutrients over time under dryland winter wheat-fallow rotation. The treatments were: no N application with residue burning in fall (FB), spring (SB), and no residue burn (NB); 45 kg N ha−1 with SB and NB; 90 kg N ha−1 with SB and NB; pea vines; and farmyard manure (FYM) and a nearby undisturbed grass pasture (GP). Wheat grain, straw, and soil samples from 1995, 2005, and 2015 were used to determine tissue total and soil Mehlich III extractable Mn, Cu, B, Fe, and Zn, and soil pH. After 84 years, extractable Mn and B in the top 10 cm of soil decreased in all plots, except for B in FYM and SB. The FYM plots had the highest extractable Mn (114 mg kg−1) in the top 10 cm soil; however, it declined by 33% compared to the GP (171 mg kg−1). Extractable Zn in the top 10 cm of soil increased with FYM while it decreased with inorganic N application in 2015; however, total Zn in grain increased by 7% with inorganic N (90 kg ha−1) application compared to FYM application. The results suggest that residue management had similar impact on soil micronutrients. Inorganic N and FYM application can be integrated to reduce micronutrient losses from cultivation.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy9080464