Nitrate Paradigm Does Not Hold Up for Sugarcane

Robinson, Nicole; Brackin, Richard; Vinall, Kerry; Soper, Fiona M.; Holst, Jirko; Gamage, Harshi K.; Paungfoo‐Lonhienne, Chanyarat; Rennenberg, Heinz; Lakshmanan, Prakash; Schmidt, Susanne

doi:10.1371/journal.pone.0019045

Cited by 162 publications

(164 citation statements)

References 37 publications

(37 reference statements)

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“…Esse resultado também foi relatado por Oliveira & Magalhães (1989). Robinson et al (2011) constataram que plantas de cana-de-açúcar absorvem preferencialmente amônio à nitrato em condições de similaridade nas concentrações de ambas as formas iônicas. O nitrato se acumula muito pouco em plantas de cana-de-açúcar, até mesmo quando aplicadas altas doses de N, o que sugere que é prontamente metabolizado ao chegar às folhas (Ishikawa et al, 2009).…”

Section: Resultsunclassified

Otimização da análise da atividade da redutase do nitrato e sua caracterização em folhas de cana-de-açúcar

Santos

Cazetta

Saran

et al. 2014

Pesq. agropec. bras.

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Resumo -O objetivo deste trabalho foi padronizar e caracterizar as condições para determinação da atividade da redutase do nitrato em tecido foliar de cana-de-açúcar, com uso do método in vivo. Amostras foliares foram coletadas de uma lavoura de primeira soqueira da cultivar IACSP 933046, com idade de seis meses. Foram estudadas diferentes condições de preparo das amostras foliares e do meio de incubação. O material que possibilitou a maior atividade da redutase do nitrato foi obtido pela amostragem de 25 discos de 1 cm de diâmetro, coletados às 13h, do centro da folha do tipo +1 sem nervura. O meio de incubação otimizado para a determinação da atividade dessa enzima em folhas de cana-de-açúcar deve ser composto por: 2,5 mL de KNO 3 300 mmol L -1 ; 2,5 mL de tampão fosfato 285 mmol L -1 pH 7,3; 1,0 mL de Tween 20 a 0,6% (v/v); e 4,0 mL de água deionizada. A maior atividade da redutase do nitrato é obtida pela incubação das amostras por 90 min, a 32°C, no escuro; é observada em plantas jovens formadas pela brotação da soqueira; e alcança o valor mínimo na fase de maturação das plantas.Termos para indexação: Saccharum, atividade enzimática, estádio fenológico, método in vivo, nitrogênio, ritmo diurno. Optimization of nitrate reductase activity analysis and its characterization in sugarcane leavesAbstract -The objective of this work was to standardize and characterize the conditions for determining the nitrate reductase activity in sugarcane leaf tissue, using in vivo method. Leaf samples were collected from a first ratoon crop of the IACSP 933046 cultivar, with six months of age. Different preparation conditions of leaf samples and incubation media were studied. The material that allowed the highest nitrate reductase activity was obtained by the sampling of 25 discs of 1 cm in diameter, collected at 13h from the center of the +1 leaf type without center rib. The incubation medium optimized to determine nitrate reductase activity in sugarcane leaves must be comprised of: 2.5 mL KNO 3 300 mmol L -1 ; 2.5 mL phosphate buffer 285 mmol L -1 pH 7.3; 1.0 mL Tween 20 0.6% (v/v); and 4.0 mL deionized water. The highest nitrate reductase activity is obtained by incubating samples for 90 min, at 32°C, in the dark; is observed in young plants formed by stump sprouting; and reaches a minimum value at the plant maturity phase.Index terms: Saccharum, enzymatic activity, phenological stage, in vivo method, nitrogen, diurnal rhythm. IntroduçãoA cana-de-açúcar (Saccharum officinarum L.) é considerada a principal matéria prima para a produção de biocombustíveis renováveis no mundo (Miller, 2010); e, portanto, é grande o interesse por conhecimento relacionado à cultura. Muitos fenômenos ligados à aquisição de N pelas plantas de cana-de-açúcar ainda não estão bem esclarecidos, e práticas, como adubação, irrigação e correção do solo para o cultivo, precisam ser melhor estudadas.A atividade da enzima redutase do nitrato (RN) [EC 1.6.6.1] pode ser utilizada como ferramenta complementar para interpretações de resultados experimentais. Div...

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Section: Resultsunclassified

Otimização da análise da atividade da redutase do nitrato e sua caracterização em folhas de cana-de-açúcar

Santos

Cazetta

Saran

et al. 2014

Pesq. agropec. bras.

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“…-by sugarcane crops (Robinson et al 2011). The increased N uptake could have contributed to the increase in sugarcane yield for the 100N_NICU treatment compared with the 100N_U treatment.…”

Section: Efficacy Of Nitrification Inhibitor-coated Ureamentioning

confidence: 97%

Nitrous oxide emission and fertiliser nitrogen efficiency in a tropical sugarcane cropping system applied with different formulations of urea

et al. 2016

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Abstract. Nitrous oxide (N 2 O) emissions from sugarcane cropped soils are usually high compared with those from other arable lands. Nitrogen-efficient management strategies are needed to mitigate N 2 O emissions from sugarcane farming whilst maintaining productivity and profitability. A year-long field experiment was conducted in wet tropical Australia to assess the efficacy of polymer-coated urea (PCU) and nitrification inhibitor (3,4-dimethylpyrazole phosphate)-coated urea (NICU). Emissions of N 2 O were measured using manual and automatic gas sampling chambers in combination. The nitrogen (N) release from PCU continued for >5-6 months, and lower soil NO 3 -contents were recorded for !3 months in the NICU treatments compared with the conventional urea treatments. The annual cumulative N 2 O emissions were high, amounting to 11.4-18.2 kg N 2 O-N ha -1 . In contrast to findings in most other cropping systems, there were no significant differences in annual N 2 O emissions between treatments with different urea formulations and application rates (0, 100 and 140 kg N ha -1 ). Daily variation in N 2 O emissions at this site was driven predominantly by rainfall. Urea formulations did not significantly affect sugarcane or sugar yield at the same N application rate. Decreasing fertiliser application rate from the recommended 140 kg N ha -1 to 100 kg N ha -1 led to a decrease in sugar yield by 1.3 t ha -1 and 2.2 t ha -1 for the conventional urea and PCU treatments, respectively, but no yield loss occurred for the NICU treatment. Crop N uptake also declined at the reduced N application rate with conventional urea, but not with the PCU and NICU. These results demonstrated that substituting NICU for conventional urea may substantially decrease fertiliser N application from the normal recommended rates whilst causing no yield loss or N deficiency to the crop. Further studies are required to investigate the optimal integrated fertiliser management strategies for sugarcane production, particularly choice of products and application time and rates, in relation to site and seasonal conditions.

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“…Relatively higher grain yields have been achieved in genotypes of Zea mays (maize) that accumulate more nitrate in early plant development, presumably because the stored nitrate is remobilized and assimilated during grain fill (Hirel et al, 2001). Similarly, Sorghum bicolor (sorghum), a related C4 grain crop of the Panicoideae subfamily of Poaceae, can accumulate nitrate in young shoots (Gleadow et al, 2016;Robinson et al, 2011). However, there is minimal information on nitrate accumulation in cereal crops, how stored nitrate impacts the N status over the plant's lifecycle, and ultimately, how nitrate stores could influence yield and grain protein.…”

Section: Introductionmentioning

confidence: 99%

“…Seedlings were thinned to one per pot prior to commencing nutrient application, nine days after sowing (DAS). Each pot received 100 mL of nutrient solution three days per week containing: 2 mM MgSO4; 2 mM CaSO4; 0.457 mM KH2PO4; 42.5 μM K2HPO4; 100 μM FeEDTA; 10 μM MnSO4; 10 μM H3BO3; 1 μM CuSO4; 2.5 μM ZnSO4; and 0.35 μM Na2MoO4 (Robinson et al, 2011). One of two nitrate treatments either 1mM KNO3 (+ 4.5 mM K2SO4; Low) or 10 mM KNO3 (High) complemented the basic nutrient solution.…”

Section: Introductionmentioning

confidence: 99%

Post-anthesis nitrate uptake is critical to yield and grain protein content in Sorghum bicolor

Worland

Robinson

Jordan

et al. 2017

Journal of Plant Physiology

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Crops only use 50% of applied nitrogen (N) fertilizer creating N losses and pollution. Plants need to efficiently uptake and utilize N to meet growing global food demands. Here we investigate how the supply and timing of nitrate affects N status and yield in Sorghum bicolor (sorghum). Sorghum was grown in pots with either 10 mM (High) or 1 mM (Low) nitrate supply. Shortly before anthesis the nitrate supply was either maintained, increased 10-fold or eliminated. Leaf sheaths of sorghum grown with High nitrate accumulated nitrate in concentrations >3-times higher than leaves. Removal of nitrate supply pre-anthesis resulted in the rapid reduction of stored nitrate in all organs. Plants receiving a 10-fold increase in nitrate supply pre-anthesis achieved similar grain yield and protein content and 29% larger grains than those maintained on High nitrate, despite receiving 24% less nitrate over the whole growth period. In sorghum, plant available N is important throughout development, particularly anthesis and grain filling, for grain yield and grain protein content. Nitrate accumulation in leaf sheaths presents opportunities for the genetic analysis of mechanisms behind nitrate storage and remobilization in sorghum to improve N use efficiency.

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Nitrate Paradigm Does Not Hold Up for Sugarcane

Cited by 162 publications

References 37 publications

Otimização da análise da atividade da redutase do nitrato e sua caracterização em folhas de cana-de-açúcar

Otimização da análise da atividade da redutase do nitrato e sua caracterização em folhas de cana-de-açúcar

Nitrous oxide emission and fertiliser nitrogen efficiency in a tropical sugarcane cropping system applied with different formulations of urea

Post-anthesis nitrate uptake is critical to yield and grain protein content in Sorghum bicolor

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