Strategies to reduce nitrous oxide emissions from nitrogen fertiliser applied to dryland sorghum. Part 4. Using 15N to discover the fate of N fertiliser

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DC Field	Value	Language
dc.contributor.author	Schwenke, Graeme	-
dc.contributor.author	Haigh, Bruce	-
dc.date.accessioned	2024-10-17T05:21:36Z	-
dc.date.available	2024-10-17T05:21:36Z	-
dc.date.issued	2016	-
dc.identifier.issn	2208-8199	-
dc.identifier.uri	https://nswdpe.intersearch.com.au/nswdpejspui/handle/1/15585	-
dc.description.abstract	Key findings • For three seasons, we applied isotope-labelled urea (15N) to sorghum in small (0.75–1.0 m2) plots, then calculated nitrogen (N) recovery by comparing the amount applied with the total 15N found in grain, crop residues and soil. • Between 55–85% of the N fertiliser applied was recovered at harvest, meaning a 15–45% loss, presumably during wet soil conditions when nitrate denitrification led to N2 and N2O gaseous losses. • In very wet conditions, little of the applied N remained in the soil at harvest, while in a dry season there was more of the applied N found in the soil at harvest than in the plant.	en
dc.publisher	Department of Primary Industries	en
dc.subject	2012, 2015, nitrogen rate, nitrous oxide emissions, Quirindi, side banded, sorghum, split application, Tamworth, topdressing	en
dc.title	Strategies to reduce nitrous oxide emissions from nitrogen fertiliser applied to dryland sorghum. Part 4. Using 15N to discover the fate of N fertiliser	en
dc.title.alternative	Northern NSW research results 2016	en
dc.type	Book chapter	en
Appears in Collections:	DPI Agriculture - Southern and Northern Research Results [2011-present]

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NSW Dept of Planning and Environment