Research update for the long-term subsoil acidity experiment (2016–2019)

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DC Field	Value	Language
dc.contributor.author	Li, Guangdi	en
dc.contributor.author	Condon, Jason	en
dc.contributor.author	Hayes, Richard	en
dc.contributor.author	Moroni, Sergio	en
dc.contributor.author	Burns, Helen	en
dc.date.accessioned	2024-09-18T03:19:38Z	en
dc.date.available	2024-09-18T03:19:38Z	en
dc.date.issued	2020	en
dc.identifier.issn	2652-6948	en
dc.identifier.uri	https://nswdpe.intersearch.com.au/nswdpejspui/handle/1/15126	en
dc.description.abstract	Key findings • Lime is the most effective amendment to increase pH and reduce exchangeable aluminium (Al). • Deep placement of organic materials had a limited effect on soil pH, but reduced exchangeable aluminium percentage (Al%) significantly. • The combination of lime with organic materials could facilitate alkalinity downwards in the soil profile in the short term. • However, applying a large amount of organic materials could acidify soil over a longer term due to nitrification. • No crop response was observed over the past three years due to severe drought conditions.	en
dc.publisher	Department of Primary Industries	en
dc.subject	2016, 2019, acidity, deep ripping, Dirnaseer, grain yield, lime, lucerne pellets, red chromosol, ripping, rotation	en
dc.title	Research update for the long-term subsoil acidity experiment (2016–2019)	en
dc.title.alternative	Southern NSW research results 2020	en
dc.type	Book chapter	en
dc.contributor.corpauthor	DPI Agriculture	en
Appears in Collections:	DPI Agriculture - Southern and Northern Research Results [2011-present]

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NSW Dept of Planning and Environment