Nitrogen Cycling from Fall Applications of Biosolids to Winter Small Grains

Environmental concerns about winter nitrogen (N) leaching loss limit the amount of biosolids applied to winter small grains in Virginia. Ten field studies were established 2012-2014 in Virginia to determine the agronomic and environmental feasibility of fall biosolids applications to soft red winter...

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Main Author: Bamber, Kevin William
Other Authors: Crop and Soil Environmental Sciences
Format: Others
Published: Virginia Tech 2016
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Online Access:http://hdl.handle.net/10919/71870
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spelling ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-718702020-11-05T05:33:20Z Nitrogen Cycling from Fall Applications of Biosolids to Winter Small Grains Bamber, Kevin William Crop and Soil Environmental Sciences Evanylo, Gregory K. Fox, Thomas R. Thomason, Wade E. agronomic nitrogen rate ammonium biomass biosolids coarse-textured soils denitrification fall application fine-textured soils grain yield inorganic nitrogen leaching leaching loss risk mineralizable nitrogen mineralization nitrate Environmental concerns about winter nitrogen (N) leaching loss limit the amount of biosolids applied to winter small grains in Virginia. Ten field studies were established 2012-2014 in Virginia to determine the agronomic and environmental feasibility of fall biosolids applications to soft red winter wheat (Triticum aestivum L.). Eight studies were located in the Coastal Plain physiographic province and two in the Ridge and Valley physiographic province. The effects of eight biosolids and urea N treatments on 1) biomass production at Zadoks growth stage (GS) 25-30, 2) soil inorganic N at GS 25-30, 3) soil mineralizable N at GS 25-30,4) N use efficiency (NUE) at GS 58, 5) grain yield, 6) end-of-season soil inorganic N, and 7) estimated N recovery were studied. Anaerobically digested (AD) and lime stabilized (LS) biosolids were fall applied at estimated plant available N (PAN) rates of 100 kg N ha-1 and 50 kg N ha-1. The 50 kg N ha-1 biosolids treatments were supplemented with 50 kg N ha-1 as urea in spring. Urea N was split applied at 0, 50, 100 and 150 kg N ha-1, with 1/3 applied in fall and 2/3 in spring. Biomass at GS 25-30 increased with urea N rate and biosolids always resulted in equal or greater biomass than urea. Soil mineralizable N at GS 25-30 rarely responded to fall urea or biosolids N rate, regardless of biosolids type. Biosolids and urea applied at the agronomic N rate resulted in equal grain yield and estimated N recovery in soils where N leaching loss risk was low, regardless of biosolids type or application strategy. Lime stabilized biosolids and biosolids/urea split N application increased grain yield and estimated N recovery in soils with high or moderate N leaching loss risk. Therefore, AD and LS biosolids can be fall-applied to winter wheat at the full agronomic N rate in soils with low N leaching loss risk, while LS biosolids could be applied to winter wheat at the full agronomic N rate in soils with moderate or high N leaching loss risk. Master of Science 2016-07-28T06:00:24Z 2016-07-28T06:00:24Z 2015-02-03 Thesis vt_gsexam:4280 http://hdl.handle.net/10919/71870 In Copyright http://rightsstatements.org/vocab/InC/1.0/ ETD application/pdf Virginia Tech
collection NDLTD
format Others
sources NDLTD
topic agronomic nitrogen rate
ammonium
biomass
biosolids
coarse-textured soils
denitrification
fall application
fine-textured soils
grain yield
inorganic nitrogen
leaching
leaching loss risk
mineralizable nitrogen
mineralization
nitrate
spellingShingle agronomic nitrogen rate
ammonium
biomass
biosolids
coarse-textured soils
denitrification
fall application
fine-textured soils
grain yield
inorganic nitrogen
leaching
leaching loss risk
mineralizable nitrogen
mineralization
nitrate
Bamber, Kevin William
Nitrogen Cycling from Fall Applications of Biosolids to Winter Small Grains
description Environmental concerns about winter nitrogen (N) leaching loss limit the amount of biosolids applied to winter small grains in Virginia. Ten field studies were established 2012-2014 in Virginia to determine the agronomic and environmental feasibility of fall biosolids applications to soft red winter wheat (Triticum aestivum L.). Eight studies were located in the Coastal Plain physiographic province and two in the Ridge and Valley physiographic province. The effects of eight biosolids and urea N treatments on 1) biomass production at Zadoks growth stage (GS) 25-30, 2) soil inorganic N at GS 25-30, 3) soil mineralizable N at GS 25-30,4) N use efficiency (NUE) at GS 58, 5) grain yield, 6) end-of-season soil inorganic N, and 7) estimated N recovery were studied. Anaerobically digested (AD) and lime stabilized (LS) biosolids were fall applied at estimated plant available N (PAN) rates of 100 kg N ha-1 and 50 kg N ha-1. The 50 kg N ha-1 biosolids treatments were supplemented with 50 kg N ha-1 as urea in spring. Urea N was split applied at 0, 50, 100 and 150 kg N ha-1, with 1/3 applied in fall and 2/3 in spring. Biomass at GS 25-30 increased with urea N rate and biosolids always resulted in equal or greater biomass than urea. Soil mineralizable N at GS 25-30 rarely responded to fall urea or biosolids N rate, regardless of biosolids type. Biosolids and urea applied at the agronomic N rate resulted in equal grain yield and estimated N recovery in soils where N leaching loss risk was low, regardless of biosolids type or application strategy. Lime stabilized biosolids and biosolids/urea split N application increased grain yield and estimated N recovery in soils with high or moderate N leaching loss risk. Therefore, AD and LS biosolids can be fall-applied to winter wheat at the full agronomic N rate in soils with low N leaching loss risk, while LS biosolids could be applied to winter wheat at the full agronomic N rate in soils with moderate or high N leaching loss risk. === Master of Science
author2 Crop and Soil Environmental Sciences
author_facet Crop and Soil Environmental Sciences
Bamber, Kevin William
author Bamber, Kevin William
author_sort Bamber, Kevin William
title Nitrogen Cycling from Fall Applications of Biosolids to Winter Small Grains
title_short Nitrogen Cycling from Fall Applications of Biosolids to Winter Small Grains
title_full Nitrogen Cycling from Fall Applications of Biosolids to Winter Small Grains
title_fullStr Nitrogen Cycling from Fall Applications of Biosolids to Winter Small Grains
title_full_unstemmed Nitrogen Cycling from Fall Applications of Biosolids to Winter Small Grains
title_sort nitrogen cycling from fall applications of biosolids to winter small grains
publisher Virginia Tech
publishDate 2016
url http://hdl.handle.net/10919/71870
work_keys_str_mv AT bamberkevinwilliam nitrogencyclingfromfallapplicationsofbiosolidstowintersmallgrains
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