Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and Subsidence

SL-301, a 6-page illustrated fact sheet by A. L. Wright and E. A. Hanlon, discusses organic soil oxidation relative to storing or releasing carbon and nitrogen, evaluates effects of cultivation, and uses this information to predict long-term outcomes for agricultural production and reclamation. Incl...

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Bibliographic Details
Main Authors:	Alan L. Wright, Edward A. Hanlon
Format:	Article
Language:	English
Published:	The University of Florida George A. Smathers Libraries 2009-08-01
Series:	EDIS
Subjects:	SS514
Online Access:	https://journals.flvc.org/edis/article/view/118050
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author	Alan L. Wright Edward A. Hanlon
author_facet	Alan L. Wright Edward A. Hanlon
author_sort	Alan L. Wright
collection	DOAJ
description	SL-301, a 6-page illustrated fact sheet by A. L. Wright and E. A. Hanlon, discusses organic soil oxidation relative to storing or releasing carbon and nitrogen, evaluates effects of cultivation, and uses this information to predict long-term outcomes for agricultural production and reclamation. Includes additional sources of information. Published by the UF Department of Soil and Water Science, August 2009. SL301/SS514: Organic Matter and Soil Structure in the Everglades Agricultural Area (ufl.edu)
format	Article
id	doaj-art-f0062ee9359442b08a2d920182d60731
institution	Kabale University
issn	2576-0009
language	English
publishDate	2009-08-01
publisher	The University of Florida George A. Smathers Libraries
record_format	Article
series	EDIS
spelling	doaj-art-f0062ee9359442b08a2d920182d607312025-02-08T06:14:12ZengThe University of Florida George A. Smathers LibrariesEDIS2576-00092009-08-0120097Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and SubsidenceAlan L. Wright0Edward A. Hanlon1University of FloridaUniversity of FloridaSL-301, a 6-page illustrated fact sheet by A. L. Wright and E. A. Hanlon, discusses organic soil oxidation relative to storing or releasing carbon and nitrogen, evaluates effects of cultivation, and uses this information to predict long-term outcomes for agricultural production and reclamation. Includes additional sources of information. Published by the UF Department of Soil and Water Science, August 2009. SL301/SS514: Organic Matter and Soil Structure in the Everglades Agricultural Area (ufl.edu) https://journals.flvc.org/edis/article/view/118050SS514
spellingShingle	Alan L. Wright Edward A. Hanlon Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and Subsidence EDIS SS514
title	Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and Subsidence
title_full	Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and Subsidence
title_fullStr	Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and Subsidence
title_full_unstemmed	Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and Subsidence
title_short	Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and Subsidence
title_sort	soil structure in everglades agricultural area histosols effects on carbon sequestration and subsidence
topic	SS514
url	https://journals.flvc.org/edis/article/view/118050
work_keys_str_mv	AT alanlwright soilstructureinevergladesagriculturalareahistosolseffectsoncarbonsequestrationandsubsidence AT edwardahanlon soilstructureinevergladesagriculturalareahistosolseffectsoncarbonsequestrationandsubsidence

Soil Structure in Everglades Agricultural Area Histosols: Effects on Carbon Sequestration and Subsidence

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