Influence of Nitrogen Nutrition Management on Biomass Partitioning and Nitrogen Use Efficiency Indices in Hydroponically Grown Potato

The National Aeronautics and Space Administration (NASA) has been conducting controlled environment research with potatoes (Solanum tuberosum L.) in recirculating nutrient film technique (NFT)-hydroponic systems as a human life support component during long-duration spaceflight. Standard nutrient solution management approaches include constant pH regulation with nitric acid (HNO3) and daily adjustment of electrical conductivity (EC) equivalent to half-strength modified Hoagland's solution, where nitrate (NO3-) is the sole nitrogen (N) source. Although tuber yields have been excellent with such an approach, N use efficiency indices are expected to be low relative to tuber biomass production. Furthermore, the high amount of N used in NFT-hydroponics, typically results in high inedible biomass, which conflicts with the need to minimize system mass, volume, and expenditure of resources for long-duration missions. More effective strategies of N fertilization need to be developed to more closely match N supply with demand of the crop. Hence, the primary objective of this study was to identify the optimal N management regime and plant N requirement to achieve high yields and to avoid inefficient use of N and excess inedible biomass production. In separate 84-day cropping experiments, three N management protocols were tested. Treatments which decreased NO3--N supply indirectly through lowering nutrient solution EC (Expt. I), or disabling pH control, and/or supplying NH4+-N (Expt. III) did not significantly benefit tuber yield, but did influence N use efficiency indices. When supplied with an external 7.5 mm NO-3--N for the first 42 days after planting (DAP), lowered to 1.0 mm NO3 -N during the final 42 days (Expt. II), plants were able to achieve yields on par with plants which received constant 7.5 mm NO3--N (control). By abruptly decreasing N supply at tuber initiation in Expt. II, less N was taken up and accumulated by plants compared to those which received high constant N (control). However, proportionately more plant accumulated N was used (N use efficiency) to produce tuber biomass when N supply was abruptly lowered at tuber initiation in Expt. II. Hence, a hydroponic nutrient solution N management system may be modified to elicit greater plant N-use while maintaining overall high tuber yield as opposed to achieving high tuber yields through excess N supply and shoot growth.

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Single and split nitrogen dose in wheat yield indicators

Revista Brasileira de Engenharia Agrícola e Ambiental ◽

10.1590/1807-1929/agriambi.v22n1p16-21 ◽

2018 ◽

Vol 22 (1) ◽

pp. 16-21 ◽

Cited By ~ 2

Author(s):

Juliane S. P. Costa ◽

Rubia D. Mantai ◽

José A. G. da Silva ◽

Osmar B. Scremin ◽

Emilio G. Arenhardt ◽

...

Keyword(s):

Block Design ◽

Wheat Yield ◽

N Use Efficiency ◽

Phenological Stages ◽

Split Dose ◽

N Supply ◽

N Release ◽

Residual N ◽

Use Efficiency ◽

N Use

ABSTRACT Single or split nitrogen (N) supply can maximize the expression of wheat yield indicators. The objective of the study was to evaluate the greater N use efficiency on wheat yield indicators by the single and split N supply under favorable and unfavorable year conditions to the crop in succession system of high and reduced residual N release. The study was conducted in 2014 and 2015, in a randomized complete block design with four replicates in a 4 x 3 factorial, for N-fertilizer doses (0, 30, 60, 120 kg ha-1) and supply forms [full dose (100%) in the phenological stage V3 (third expanded leaf); split dose (70 and 30%) in the phenological stages V3/V6 (third and sixth expanded leaves, respectively) and; split dose (70 and 30%) in the phenological stages V3/R1 (third expanded leaf and early grain filling)], respectively, in soybean/wheat and maize/wheat cultivation systems. The highest N use efficiency for wheat yield was obtained with the single dose supply in favorable year of temperature and rainfall and with the split dose in the V3/V6 stages in unfavorable year, regardless of the succession system of high and reduced residual N release.

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THE INFLUENCE OF N CONCENTRATION IN PRE TRANSPLANT NUTRIENT SOLUTION ON THE N USE EFFICIENCY AND DRY MASS PARTITIONING OF PEPPER (CAPSICUM ANNUM. L.) SEEDLINGS

Acta Horticulturae ◽

10.17660/actahortic.2009.807.85 ◽

2009 ◽

pp. 579-584

Author(s):

A. Balliu ◽

GJ. Vuksani ◽

U. Abazi ◽

LL. Haxhinasto ◽

TH. Nasto

Keyword(s):

Nutrient Solution ◽

Dry Mass ◽

N Use Efficiency ◽

Capsicum Annum ◽

N Concentration ◽

Use Efficiency ◽

Dry Mass Partitioning ◽

N Use

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N uptake, N partitioning, and photosynthetic N-use efficiency of an old and a new maize hybrid

Canadian Journal of Plant Science ◽

10.4141/cjps94-088 ◽

1994 ◽

Vol 74 (3) ◽

pp. 479-484 ◽

Cited By ~ 35

Author(s):

D. E. McCullough ◽

A. Aguilera ◽

M. Tollenaar

Keyword(s):

Dry Matter ◽

N Uptake ◽

N Use Efficiency ◽

Maize Hybrid ◽

Unit Leaf ◽

N Supply ◽

N Partitioning ◽

Use Efficiency ◽

N Use ◽

Leaf N

An old maize (Zea mays L.) hybrid (Pride 5) has been shown to be less tolerant to N stress than a new maize hybrid (Pioneer 3902) during early phases of development. The objective of this study was to quantify the response of the two hybids to N supply in terms of N uptake, N partitioning, and photosynthetic N–use efficiency. Plants were grown under controlled-environment conditions until the 12-leaf stage at three levels of N supply (i.e., 15 mM N, 2.5 mM N, and 0.5 mM N) and were sampled at the 4-, 8-, and 12-leaf stages. Rates of N uptake per unit ground area were higher for Pioneer 3902 than for Pride 5 under maximum N stress during the 8- to 12-leaf phase, but rates were higher for Pride 5 at high N. Rates of N uptake per unit root weight were higher for Pioneer 3902 than for Pride 5 under both medium and low N supply. The old hybrid (Pride 5) partitioned more dry matter and N to leaves than the new hybrid under low N supply, but leaf N per unit leaf area was higher for the new hybrid. The new hybrid (Pioneer 3902) maintained greater rates of leaf photosynthesis per unit leaf N regardless of N supply. Consequently, results indicate that the higher N-use efficiency of Pioneer 3902 under low N supply is associated with higher N uptake and a higher leaf N per unit leaf area. Key words:Zea mays L., dry matter accumulation, photosynthesis, leaf N

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Genotypic Effects of Fertilization on Seedling Sweetgum Biomass Allocation, N Uptake, and N Use Efficiency

The Scientific World JOURNAL ◽

10.1100/tsw.2001.275 ◽

2001 ◽

Vol 1 ◽

pp. 407-414 ◽

Cited By ~ 2

Author(s):

Scott X. Chang ◽

Daniel J. Robison

Keyword(s):

Biomass Production ◽

N Uptake ◽

N Use Efficiency ◽

Total N ◽

Nutrient Use ◽

Use Efficiency ◽

P Application ◽

N Use ◽

Nutrient Use Efficiencies ◽

N Additions

Screening and selecting tree genotypes that are responsive to N additions and that have high nutrient use efficiencies can provide better genetic material for short-rotation plantation establishment. A pot experiment was conducted to test the hypotheses that (1) sweetgum (Liquidambar styraciflua L.) families have different patterns in biomass production and allocation, N uptake, and N use efficiency (NUE), because of their differences in growth strategies, and (2) sweetgum families that are more responsive to N additions will also have greater nutrient use efficiencies. Seedlings from two half-sib families (F10022 and F10023) that were known to have contrasting responses to fertility and other stress treatments were used for an experiment with two levels of N (0 vs. 100 kg N/ha equivalent) and two levels of P (0 vs. 50 kg P/ha equivalent) in a split-plot design. Sweetgum seedlings responded to N and P treatments rapidly, with increases in both size and biomass production, and those responses were greater with F10023 than with F10022. Growth response to N application was particularly strong. N and P application increased the proportional allocation of biomass to leaves. Under increased N supply, P application increased foliar N concentration and content, as well as total N uptake by the seedlings. However, NUE was decreased by N addition and was higher in F10023 than in F10022 when P was not limiting. A better understanding of genotype by fertility interactions is important in selecting genotypes for specific site conditions and for optimizing nutrient use in forestry production.

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Nitrogen management in rice

ORYZA- An International Journal on Rice ◽

10.35709/ory.2019.56.s.5 ◽

2019 ◽

Vol 56 (Special Issue) ◽

pp. 125-135

Author(s):

D Panda ◽

AK Nayak ◽

S Mohanty

Keyword(s):

Environmental Sustainability ◽

Management Practices ◽

N Use Efficiency ◽

Optimum Level ◽

Management Options ◽

N Application ◽

Deep Placement ◽

Use Efficiency ◽

N Management ◽

N Use

Nitrogen is the one of most limiting nutrient for rice production, and in India rice cultivation alone accounts approximately 37% of the total fertilizer-N consumption in the year 1917-18. However, 60-70% of applied N is lost from the rice ecosystem system in the form of reactive N species such as ammonia (NH3), nitrous oxide (N2O), nitric oxide (NO), nitrogen dioxide (NO2) and nitrate (NO3) through various processes. Hence enhancing N use efficiency through improved N management is of greater importance for ensuring food security and environmental sustainability. The decisions on optimum level, time, form and method of N application are crucial to an efficient N management strategy. Earlier studies suggested blanket fertilizer recommendations for different rice ecosystems and soil test based fertilizer applications. Subsequently, innovative methods of N application including deep placement of urea super granule in reduced zone, subsurface incorporation of urea through farmer friendly methods were also recommended Recently several advancements have been made in N management practices for rice crop such as site specific N management, real time N management using leaf colour chart (LCC) and customised LCC, enhanced efficiency N fertilizers (EENF) using N transformation regulators and GIS and remote sensing (RS) - based N application technologies. The objective of this paper is to comprehensively discuss about the established and emerging N management options for improving yield, N use efficiency and environmental sustainability of rice.

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THE EFFECTS OF N CONCENTRATION IN PRE-TRANSPLANT NUTRIENT SOLUTION ON THE N USE EFFICIENCY AND DRY MASS PARTITIONING OF VEGETABLE SOLANACEAE SEEDLINGS

Acta Horticulturae ◽

10.17660/actahortic.2009.830.57 ◽

2009 ◽

pp. 405-412

Author(s):

GL. Sallaku ◽

A. Bani ◽

A. Balliu

Keyword(s):

Nutrient Solution ◽

Dry Mass ◽

N Use Efficiency ◽

N Concentration ◽

Use Efficiency ◽

Dry Mass Partitioning ◽

N Use

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Rate and timing of nitrogen fertilization of Russet Burbank potato: Nitrogen use efficiency

Canadian Journal of Plant Science ◽

10.4141/p03-131 ◽

2004 ◽

Vol 84 (3) ◽

pp. 845-854 ◽

Cited By ~ 31

Author(s):

B. J. Zebarth ◽

Y. Leclerc ◽

G. Moreau

Keyword(s):

Dry Matter ◽

N Fertilization ◽

N Use Efficiency ◽

Fertilizer N ◽

Inorganic N ◽

N Accumulation ◽

N Supply ◽

Soil Inorganic N ◽

Use Efficiency ◽

N Use

This study evaluated rate and timing of N fertilization effects on the N use efficiency characteristics of rain-fed Russet Burbank potato. Trials conducted in 1999–2001 included different rates of fertili zer N (0–160 kg N ha-1 in 1999 and 0–200 kg N ha-1 in 2000 and 2001) applied either at planting according to normal grower practice, or at hilling, the latest time that granular fertilizer can practically be applied. Whole-plant dry matter and N accumulation were determined at topkill. Soil inorganic N content was measured to 30-cm depth at planting and at tuber harvest. Soil N supply (plant N accumulation plus soil inorganic N content at harvest with no fertilizer N applied) varied from 77 to 146 kg N ha-1 depending on the year. Crop N supply (soil N supply plus fertilizer N applied) was a better predictor of plant N accumulation than fertilizer N rate, and was used to remove the confounding effect of variation in soil N supply when making among-year comparisons for N use efficiency characteristics. Nitrogen uptake efficiency (NUpE; plant N accumulation/crop N supply) decreased with increasing rates of N applied at hilling N rate in 1999, which was a dry year, but was not influenced by at-hilling N rate in 2000 and 2001, or by at-planting N rate in any year. Nitrogen use efficiency (NUE; dry matter accumulation/crop N supply) and N utilization efficiency (NUtE; dry matter accumulation/plant N accumulation) decreased curvilinearly with increasing crop N supply in each year. Similar relationships between NUE and crop N supply, and between NUtE and plant N accumulation, among the 3 yr of the study suggest that these relationships are largely independent of seasonal climatic variation, and are primarily genetically controlled. Timing of N fertilization had no effect on any N use efficiency parameter, with the exception of reduced NUpE associated with split N application in 1999. This suggests that under rain-fed potato production in Atlantic Canada, timing of N fertilization has no significant effect on N use efficiency of Russet Burbank potato in years of adequate soil moisture, but NUpE may be decreased by split application of N in dry years. Key words: Solanum tuberosum, soil inorganic N, apparent fertilizer N recovery

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Impact of : ratio and nitrogen supply on nitrogen remobilization in potted chrysanthemum grown in a subirrigation system

Canadian Journal of Plant Science ◽

10.4141/cjps2013-251 ◽

2014 ◽

Vol 94 (5) ◽

pp. 867-880

Author(s):

William N. MacDonald ◽

M. James Tsujita ◽

Theo J. Blom ◽

Barry J. Shelp

Keyword(s):

Nitrogen Supply ◽

N Use Efficiency ◽

Nitrate Content ◽

Nitrogen Remobilization ◽

Nitrate Accumulation ◽

Inflorescence Development ◽

Total N ◽

N Supply ◽

Use Efficiency ◽

N Use

MacDonald, W. N., Tsujita, M. J., Blom, T. J. and Shelp, B. J. 2014. Impact of [Formula: see text]:[Formula: see text] ratio and nitrogen supply on nitrogen remobilization in potted chrysanthemum grown in a subirrigation system. Can. J. Plant Sci. 94: 867–880. Subirrigation is being adopted as an environmentally friendly strategy for managing the nutrition of potted greenhouse plants. Here, we investigated two strategies for enhancing the remobilization of N during the development of the inflorescence in subirrigated potted chrysanthemum (Chrysanthemum morifolium Ramat.) in an attempt to improve nitrogen (N) use efficiency. (1) The replacement of a portion of the nitrate in the nutrient solution with ammonium decreased the nitrate content, especially in the stem plus petioles, and increased the reduced N content early in the growth cycle, but did not improve N use efficiency. (2) The use of a lower N supply (200 vs. 400 mg total N per pot delivered over 3 and 5 wk, respectively), either as nitrate or ammonium nitrate, eliminated nitrate accumulation prior to inflorescence development, thereby improving N use efficiency. Inflorescence quality was unaffected; however, at the lower N level there was some evidence of chlorosis on the oldest leaves. Thus, there may be considerable potential to reduce the N supply in a commercial greenhouse setting as long as an adequate supply is provided early in the growing period.

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