Nitrate paradigm does not hold up for sugarcane.

Modern agriculture is based on the notion that nitrate is the main source of nitrogen (N) for crops, but nitrate is also the most mobile form of N and easily lost from soil. Efficient acquisition of nitrate by crops is therefore a prerequisite for avoiding off-site N pollution. Sugarcane is consider...

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Main Authors: Nicole Robinson, Richard Brackin, Kerry Vinall, Fiona Soper, Jirko Holst, Harshi Gamage, Chanyarat Paungfoo-Lonhienne, Heinz Rennenberg, Prakash Lakshmanan, Susanne Schmidt
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3084252?pdf=render
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spelling doaj-38c860b9eb274080ad63179ff9d4c3732020-11-25T01:25:26ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-0164e1904510.1371/journal.pone.0019045Nitrate paradigm does not hold up for sugarcane.Nicole RobinsonRichard BrackinKerry VinallFiona SoperJirko HolstHarshi GamageChanyarat Paungfoo-LonhienneHeinz RennenbergPrakash LakshmananSusanne SchmidtModern agriculture is based on the notion that nitrate is the main source of nitrogen (N) for crops, but nitrate is also the most mobile form of N and easily lost from soil. Efficient acquisition of nitrate by crops is therefore a prerequisite for avoiding off-site N pollution. Sugarcane is considered the most suitable tropical crop for biofuel production, but surprisingly high N fertilizer applications in main producer countries raise doubt about the sustainability of production and are at odds with a carbon-based crop. Examining reasons for the inefficient use of N fertilizer, we hypothesized that sugarcane resembles other giant tropical grasses which inhibit the production of nitrate in soil and differ from related grain crops with a confirmed ability to use nitrate. The results of our study support the hypothesis that N-replete sugarcane and ancestral species in the Andropogoneae supertribe strongly prefer ammonium over nitrate. Sugarcane differs from grain crops, sorghum and maize, which acquired both N sources equally well, while giant grass, Erianthus, displayed an intermediate ability to use nitrate. We conclude that discrimination against nitrate and a low capacity to store nitrate in shoots prevents commercial sugarcane varieties from taking advantage of the high nitrate concentrations in fertilized soils in the first three months of the growing season, leaving nitrate vulnerable to loss. Our study addresses a major caveat of sugarcane production and affords a strong basis for improvement through breeding cultivars with enhanced capacity to use nitrate as well as through agronomic measures that reduce nitrification in soil.http://europepmc.org/articles/PMC3084252?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Nicole Robinson
Richard Brackin
Kerry Vinall
Fiona Soper
Jirko Holst
Harshi Gamage
Chanyarat Paungfoo-Lonhienne
Heinz Rennenberg
Prakash Lakshmanan
Susanne Schmidt
spellingShingle Nicole Robinson
Richard Brackin
Kerry Vinall
Fiona Soper
Jirko Holst
Harshi Gamage
Chanyarat Paungfoo-Lonhienne
Heinz Rennenberg
Prakash Lakshmanan
Susanne Schmidt
Nitrate paradigm does not hold up for sugarcane.
PLoS ONE
author_facet Nicole Robinson
Richard Brackin
Kerry Vinall
Fiona Soper
Jirko Holst
Harshi Gamage
Chanyarat Paungfoo-Lonhienne
Heinz Rennenberg
Prakash Lakshmanan
Susanne Schmidt
author_sort Nicole Robinson
title Nitrate paradigm does not hold up for sugarcane.
title_short Nitrate paradigm does not hold up for sugarcane.
title_full Nitrate paradigm does not hold up for sugarcane.
title_fullStr Nitrate paradigm does not hold up for sugarcane.
title_full_unstemmed Nitrate paradigm does not hold up for sugarcane.
title_sort nitrate paradigm does not hold up for sugarcane.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description Modern agriculture is based on the notion that nitrate is the main source of nitrogen (N) for crops, but nitrate is also the most mobile form of N and easily lost from soil. Efficient acquisition of nitrate by crops is therefore a prerequisite for avoiding off-site N pollution. Sugarcane is considered the most suitable tropical crop for biofuel production, but surprisingly high N fertilizer applications in main producer countries raise doubt about the sustainability of production and are at odds with a carbon-based crop. Examining reasons for the inefficient use of N fertilizer, we hypothesized that sugarcane resembles other giant tropical grasses which inhibit the production of nitrate in soil and differ from related grain crops with a confirmed ability to use nitrate. The results of our study support the hypothesis that N-replete sugarcane and ancestral species in the Andropogoneae supertribe strongly prefer ammonium over nitrate. Sugarcane differs from grain crops, sorghum and maize, which acquired both N sources equally well, while giant grass, Erianthus, displayed an intermediate ability to use nitrate. We conclude that discrimination against nitrate and a low capacity to store nitrate in shoots prevents commercial sugarcane varieties from taking advantage of the high nitrate concentrations in fertilized soils in the first three months of the growing season, leaving nitrate vulnerable to loss. Our study addresses a major caveat of sugarcane production and affords a strong basis for improvement through breeding cultivars with enhanced capacity to use nitrate as well as through agronomic measures that reduce nitrification in soil.
url http://europepmc.org/articles/PMC3084252?pdf=render
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