Night-time warming affects N and P dynamics and productivity of winter wheat plants

2013 ◽  
Vol 93 (3) ◽  
pp. 397-406 ◽  
Author(s):  
Yaohong Zhang ◽  
Renying Li ◽  
Yanling Wang
Keyword(s):  
Winter Wheat ◽  
Field Experiments ◽  
Grain Filling ◽  
P Uptake ◽  
Utilization Efficiency ◽  
Night Time ◽  
N Accumulation ◽  
Total N ◽  
Growing Seasons ◽  
P Utilization

Zhang, Y., Li, R. and Wang, Y. 2013. Night-time warming affects N and P dynamics and productivity of winter wheat plants. Can. J. Plant Sci. 93: 397–406. The daily night-time temperature has currently increased faster than the daily daytime temperature over much of the Earth's surface. To understand how night-time warming affects the dynamics of winter wheat performance, open-field experiments, in which temperatures were elevated by covering the plots at night with reflective curtains, were conducted in the 2010/2011 and 2011/2012 growing seasons. The results show that, on average, night-time temperatures increased by 0.9°C under night-time covered (NC) treatment compared with the uncovered (CK). Plant total N accumulation was 17–43% higher in NC treatment than CK during the jointing, anthesis and ripening stages, whereas plant total P was affected by NC treatment depending on growing stage. Night-time covered treatment substantially decreased N translocation efficiency, leading to more N retained in plant stems during grain filling. Although P translocated to grain was 29–41% higher in NC plots than CK plots, NC treatment decreased post-anthesis P uptake by 27–41%, depending on the growing season, resulting in evident reduction of P harvest index and P utilization efficiency. When night-time temperature increased, grain yield was reduced by 6–25% due to a combination of decreased productive spikes, a lower number of kernels per spike and reduced weight of grain per kernel.

Heterotic and seed rate effects on nitrogen efficiencies in wheat

2004 ◽  
Vol 142 (6) ◽  
pp. 639-657 ◽  
Author(s):  
D. R. KINDRED ◽  
M. J. GOODING
Keyword(s):  
Dry Matter ◽  
Field Experiments ◽  
N Uptake ◽  
Grain Filling ◽  
Utilization Efficiency ◽  
N Accumulation ◽  
Total N ◽  
Seed Rate ◽  
N Utilization ◽  
Wheat Hybrids

Four field experiments over 2 years investigated whether wheat hybrids had higher nitrogen-use efficiency (NUE) than their parents over a range of seed rates and different N regimes. There was little heterosis for total N in the above-ground biomass (NYt), but there was high-parent heterosis for grain N yields (NYg) in two of the hybrids, Hyno Esta and Hyno Rista, associated with greater nitrogen harvest index (NHI). Overall, the hybrids did not significantly increase the total dry matter produced per unit N in the above-ground crop (NUtEt), but did increase the grain dry matter per unit N in the above ground crop (NUtEg). The improvement in NUtEg was at the partial detriment of grain N concentration. Heterosis for grain NYg in Hyno Esta was lower at zero-N, suggesting that it did not achieve higher yields through more efficient capture or utilization of N. The greater NHI in Hyno Esta appeared to be facilitated by both greater N uptake, and remobilization of N from vegetative tissues, after anthesis.The response of N efficiency and uptake to seed rate was dependent on N supply and season. Where N fertilizer was applied, N uptake over time was slower at the lower seed rates, but where N was withheld N capture at the lowest seed rate soon approached the N capture of the higher seed rates. During grain filling, the rate of accumulation of N into the grain increased with seed rate and the duration of N accumulation decreased with seed rate. With N applied, N yields increased to an asymptote with seed rate, when N was withheld there was little response of N yields to seed rate. In 2002, N utilization efficiency (NUtEt and NUtEg) also increased asymptotically with seed rate, but in 2003 seed rate had little effect on N utilization efficiency. When nitrogen fertilizer had not been applied, NHI consistently decreased with increasing seed rate. The timing of N application made little difference to NUE, NY, or NUtE.

Growth and nitrogen dynamics of spring chickpea genotypes in a Mediterranean-type climate

2009 ◽  
Vol 147 (4) ◽  
pp. 445-458 ◽  
Author(s):  
S. D. KOUTROUBAS ◽  
M. PAPAGEORGIOU ◽  
S. FOTIADIS
Keyword(s):  
Seed Yield ◽  
Field Experiments ◽  
Utilization Efficiency ◽  
Silty Clay ◽  
N Accumulation ◽  
N Content ◽  
Total N ◽  
Vegetative Period ◽  
Seed Filling ◽  
Rainfed Farming

SUMMARYChickpea (Cicer arietinum L.) is an important legume of rainfed farming systems, contributing to the sustainability of production and reducing the need for nitrogen (N) fertilization through fixing atmospheric N2. The relative importance of factors causing variations in growth, seed yield, N accumulation and N utilization efficiency among spring chickpea varieties grown in a Mediterranean-type climate was investigated in field experiments conducted in 2003 and 2004. Five chickpea varieties were grown in a silty clay soil in the farm of the Democritus University of Thrace in Orestiada, Greece. Yearly differences in plant growth and productivity were observed and were mainly associated with the variations in the weather parameters between the growing seasons. Nitrogen utilization efficiency (NUE) for biomass production during the seed-filling period was higher compared with that during the vegetative period. NUE for seed yield (SY) ranged from 18·3 to 24·5 g dry matter (DM)/g N and was positively correlated with seed yield, suggesting that high SY was associated with more efficient exploitation of N. When the environmental conditions favoured high early N accumulation, the differences among varieties in NUE were mainly due to the differences in N partitioning at maturity, e.g. the nitrogen harvest index (NHI). The amount and the efficiency of N content at the beginning of seed growth (growth stage (GS) R5) that was translocated to the seed differed among varieties and ranged from 7·0 to 16·6 g N/m2 and from 68·2 to 86·8 g DM/g N, respectively. Most of the variation (0·96) between varieties in N translocation could be accounted for by the differences in total N content at GS R5. N losses from the plant foliage between 0·61 and 9·92 g N/m2 were detected during the seed-filling period when SY was low and N content at GS R5 was high.

scholarly journals Rattail fescue (Vulpia myuros) interference and seed production as affected by sowing time and crop density in winter wheat

Weed Science ◽  
2020 ◽  
pp. 1-10
Author(s):  
Muhammad Javaid Akhter ◽  
Per Kudsk ◽  
Solvejg Kopp Mathiassen ◽  
Bo Melander
Keyword(s):  
Winter Wheat ◽  
Grain Yield ◽  
Seed Production ◽  
Yield Components ◽  
Field Experiments ◽  
Growing Season ◽  
Sowing Time ◽  
Growing Seasons ◽  
Crop Density ◽  
Wide Range

Abstract Field experiments were conducted in the growing seasons of 2017 to 2018 and 2018 to 2019 to evaluate the competitive effects of rattail fescue [Vulpia myuros (L.) C.C. Gmel.] in winter wheat (Triticum aestivum L.) and to assess whether delayed crop sowing and increased crop density influence the emergence, competitiveness, and fecundity of V. myuros. Cumulative emergence showed the potential of V. myuros to emerge rapidly and under a wide range of climatic conditions with no effect of crop density and variable effects of sowing time between the two experiments. Grain yield and yield components were negatively affected by increasing V. myuros density. The relationship between grain yield and V. myuros density was not influenced by sowing time or by crop density, but crop–weed competition was strongly influenced by growing conditions. Due to very different weather conditions, grain yield reductions were lower in the growing season of 2017 to 2018 than in 2018 to 2019, with maximum grain yield losses of 22% and 50% in the two growing seasons, respectively. The yield components, number of crop ears per square meter, and 1,000-kernel weight were affected almost equally, reflecting that V. myuros’s competition with winter wheat occurred both early and late in the growing season. Seed production of V. myuros was suppressed by delaying sowing and increasing crop density. The impacts of delayed sowing and increasing crop density on seed production of V. myuros highlight the potential of these cultural weed control tactics in the long-term management programs of this species.

scholarly journals Genetic Dissection of Phosphorous Uptake and Utilization Efficiency Traits Using GWAS in Mungbean

Agronomy ◽  
2021 ◽  
Vol 11 (7) ◽  
pp. 1401
Author(s):  
Venkata Ravi Prakash Reddy ◽  
Shouvik Das ◽  
Harsh Kumar Dikshit ◽  
Gyan Prakash Mishra ◽  
Muraleedhar S. Aski ◽  
...  
Keyword(s):  
Genome Wide Association Study ◽  
Genotyping By Sequencing ◽  
Dry Weight ◽  
P Uptake ◽  
Utilization Efficiency ◽  
Genetic Dissection ◽  
P Deficiency ◽  
P Utilization ◽  
P Utilization Efficiency ◽  
Phosphorous Uptake

Mungbean (Vignaradiata L. Wilczek) is an early maturing legume grown predominantly in Asia for its protein-rich seeds. P deficiency can lead to several physiological disorders which ultimately result in a low grain yield in mungbean. The genetic dissection of PUpE (Puptake efficiency) and PUtE (P utilization efficiency) traits are essential for breeding mungbean varieties with a high P uptake and utilization efficiency. The study involves an association mapping panel consisting of 120 mungbean genotypes which were phenotyped for total dry weight, P concentration, total P uptake, and P utilization efficiency under low P (LP) and normal P (NP) conditions in a hydroponic system. A genotyping-by-sequencing (GBS) based genome-wide association study (GWAS) approach was employed to dissect the complexity of PUpE and PUtE traits at the genetic level in mungbean. This has identified 116 SNPs in 61 protein-coding genes and of these, 16 have been found to enhance phosphorous uptake and utilization efficiency in mungbeans. We identified six genes with a high expression (VRADI01G04370, VRADI05G20860, VRADI06G12490, VRADI08G20910, VRADI08G00070 and VRADI09G09030) in root, shoot apical meristem and leaf, indicating their role in the regulation of P uptake and utilization efficiency in mungbean. The SNPs present in three genes have also been validated using a Sanger sequencing approach.

scholarly journals   Effect of elevated CO2 and temperature on phosphorus efficiency of wheat grown in an Inceptisol of subtropical India

2012 ◽  
Vol 58 (No. 5) ◽  
pp. 230-235 ◽  
Author(s):  
Manoj-Kumar ◽  
A. Swarup ◽  
A.K. Patra ◽  
J.U. Chandrakala ◽  
K.M. Manjaiah
Keyword(s):  
Grain Yield ◽  
Dry Weight ◽  
P Uptake ◽  
Utilization Efficiency ◽  
Phosphorus Efficiency ◽  
Total Biomass ◽  
P Efficiency ◽  
Plant Parts ◽  
P Fertilizer ◽  
P Utilization

In a phytotron experiment, wheat was grown under two levels of atmospheric CO<sub>2</sub> [ambient (385 ppm) vs. elevated (650 ppm)], two levels of temperature (ambient vs. ambient +3&deg;C) superimposed with three levels of phosphorus (P) fertilization: 0, 100, and 200% of recommended dose. Various measures of P acquisition and utilization efficiency were estimated at crop maturity. In general, dry matter yields of all plant parts increased under elevated CO<sub>2</sub> (EC) and decreased under elevated temperature (ET); however, under concurrently elevated CO<sub>2</sub> and temperature (ECT), root (+36%) and leaf (+14.7%) dry weight increased while stem (&ndash;12.3%) and grain yield (&ndash;17.3%) decreased, leading to a non-significant effect on total biomass yield. Similarly, total P uptake increased under EC and decreased under ET, with an overall increase of 17.4% under ECT, signifying higher P requirements by plants grown thereunder. Although recovery efficiency of applied P fertilizer increased by 27%, any possible benefit of this increase was negated by the reduced physiological P efficiency (PPE) and P utilization efficiency (PUtE) under ECT. Overall, there was ~17% decline in P use efficiency (PUE) (i.e. grain yield/applied P) of wheat under ECT. &nbsp;

THE INFLUENCE OF WATER AVAILABILITY ON WINTER WHEAT YIELDS

1982 ◽  
Vol 62 (4) ◽  
pp. 831-838 ◽  
Author(s):  
R. C. JOHNSON ◽  
E. T. KANEMASU
Keyword(s):  
Winter Wheat ◽  
Soil Water ◽  
Field Experiments ◽  
Grain Filling ◽  
Triticum Aestivum L ◽  
Kernel Weight ◽  
Additional Treatment ◽  
Treatment Regimes ◽  
Influence Of Water ◽  
Soil Water Conditions

Field experiments were conducted comparing yield and yield components of winter wheat (Triticum aestivum L.) grown under different soil water conditions. Soil water was controlled by excluding precipitation from a 150-m2 plot area with an automatic rain shelter. Treatment regimes were described according to their relative preanthesis/postanthesis soil water content as high/high (H/H), high/low (H/L), and low/high (L/H) in 1978–1979; an additional treatment, low/low (L/L) was added in 1979–1980. A neutron probe was used to periodically monitor soil water to the 150-cm depth in each regime. Plot yields ranged from 559 g/m2 in regime H/H (1978–1979) to 267 g/m2 in L/L (1979–1980) and were positively correlated with head number per square metre (r = 0.70) and kernel number per head (r = 0.79). Low preanthesis soil water reduced head number per square metre in both years. Regimes L/H and L/L in 1979–1980, which averaged the lowest preanthesis soil water of all regimes both years, had reduced kernels per spikelet compared to regimes with high preanthesis soil water. Increased kernel weight. associated with postanthesis irrigations, generally was not enough to compensate fully for fewer kernels per square metre associated with low preanthesis soil water. The results indicate that, if drought develops before grain filling in the spring, improved tiller survival and/or floret fertility could increase yields, even if some stress continued through grain filling. Under nonstress conditions, yield appears limited most by the amount of assimilate required to fill a high number of kernels per square metre.

Nitrogen fixation in field beans (Vicia faba) as affected by population density, shading and its relationship with soil moisture

1977 ◽  
Vol 88 (2) ◽  
pp. 303-310 ◽  
Author(s):  
Janet I. Sprent ◽  
Alison M. Bradford
Keyword(s):  
Acetylene Reduction ◽  
Field Experiments ◽  
Reduction Technique ◽  
N Fixation ◽  
N Accumulation ◽  
Total N ◽  
Nodule Senescence ◽  
Total Plant ◽  
Acetylene Reducing Activity ◽  
High Yields

SUMMARYN fixation data, estimated by the acetylene reduction technique and by total N content are given for the field experiments reported by Sprent, Bradford & Norton (1977).Maximum potential acetylene reducing activity per plant varied little from year to year. At low population densities a maximum rate of activity was observed shortly after flowering. As density increased this maximum became less pronounced and environmental factors (such as water supply) exerted increasing effects on activity. Shading prolonged activity and delayed nodule senescence.Total plant N continued to increase almost to seed maturation. As plants aged, the acetylene reduction technique progressively underestimated N accumulation. Maximum Nfixed/ha/year was over 600 kg. Itis concluded that the potential for N fixation in this crop is sufficient to sustain high yields.

Effects of Azospirillum inoculation on root infection and nitrogen incorporation in wheat

1983 ◽  
Vol 29 (8) ◽  
pp. 924-929 ◽  
Author(s):  
Vera L. D. Baldani ◽  
José Ivo Baldani ◽  
Johanna Döbereiner
Keyword(s):  
Dry Matter ◽  
Field Experiments ◽  
Nitrogen Accumulation ◽  
Root Infection ◽  
Wheat Roots ◽  
N Accumulation ◽  
Total N ◽  
Total Plant ◽  
Chloramine T ◽  
Heading Stage

In two field experiments, wheat was inoculated with various strains of Azospirillum spp. The two A. brasilense nir− strains isolated from surface-sterilized wheat roots increased the number of Azospirillum in surface-sterilized roots, plant dry matter, and percent N. The total N accumulated in plant tops at heading stage was increased by 30% in the first experiment (strain Sp 107 st) and by 51 and 89% (strains Sp 107 st and Sp 245, respectively) in the second experiment. The Azospirillum numbers (MPN) in chloramine-t treated roots were correlated with total nitrogen accumulation in plant tops (r = 0.92**). Numbers of Azospirillum in nonsterilized roots did not correlate with total plant N accumulation.

Imazamox Rates, Timings, and Adjuvants Affect Imidazolinone-Tolerant Winter Wheat Cultivars

2005 ◽  
Vol 19 (3) ◽  
pp. 599-607 ◽  
Author(s):  
John C. Frihauf ◽  
Stephen D. Miller ◽  
Craig M. Alford
Keyword(s):  
Winter Wheat ◽  
Field Experiments ◽  
Nitrate Solution ◽  
Wheat Yield ◽  
Early Spring ◽  
Growing Seasons ◽  
Ammonium Nitrate Solution ◽  
Severity Of Injury ◽  
Winter Wheat Cultivars ◽  
Early Fall

Irrigated field experiments were conducted near Torrington, WY, during the 2001 to 2002 (year 1) and 2002 to 2003 (year 2) winter wheat growing seasons to evaluate cultivar response to different imazamox rates, adjuvants, and application timings. Five cultivars were treated postemergence in the early fall (EF), late fall (LF), or early spring (ES) with imazamox at 54 or 108 g ai/ha, including either nonionic surfactant (NIS) at 0.25% or methylated seed oil (MSO) at 1% (v/v) as adjuvants. A 28% urea ammonium nitrate solution at 1% (v/v) was included with all treatments. Spring injury was more severe in year 1 than year 2. Severe spring injury on ‘AP502 CL’, ‘Above’, ‘IMI-Fidel’, ‘IMI-Jagger’, and ‘IMI-Madsen’ was linked to fall application of 108 g/ha imazamox with MSO. Imazamox applied at 108 g/ha plus MSO applied in the fall consistently injured all cultivars more than the same rate with NIS and 54 g/ha imazamox regardless of adjuvant and timing, although severity of injury in the experiments differed between EF and LF timings in years 1 and 2, respectively. Correlation analysis supports injury reduced reproductive tillers per meter of row and wheat yields and increased the number of seeds per spike in year 1. The reduction of reproductive tillers per meter of row in year 1 was likely the result of severe injury caused by 108 g/ha imazamox applied in the EF coupled with little snow cover to protect against cold winter temperatures. Wheat yield in year 1 was reduced by 108 g/ha imazamox applied in the early fall; however, imazamox applied at 54 g/ha with either adjuvant in EF, LF, or ES were safe. Yield parameters and wheat yields in year 2 were not affected by imazamox rate, adjuvant, timing, or interactions of these factors.

scholarly journals Comparisons of WUE in twelve genotypes of winter wheat and the relationship between δ13C and WUE

PeerJ ◽  
2019 ◽  
Vol 7 ◽  
pp. e6767
Author(s):  
Guirong Huang ◽  
Xinying Zhang ◽  
Yajing Wang ◽  
Fu Feng ◽  
Xurong Mei ◽  
...  
Keyword(s):  
Winter Wheat ◽  
Grain Yield ◽  
Isotope Composition ◽  
Stable Carbon Isotope ◽  
Irrigation Treatment ◽  
Grain Filling ◽  
Supplemental Irrigation ◽  
Growing Seasons ◽  
Use Efficiency ◽  
The Relationship

Twelve winter wheat (Triticum aestivum) genotypes were examined for differences in grain yield, water use efficiency (WUE), and stable carbon isotope composition (δ13C) in flag leaves. The plants were subjected to rain-fed treatment and supplemental irrigation at the jointing and anthesis stages, during the 2015–2016 and 2016–2017 winter wheat growing seasons. The relationships between δ13C with grain yield and WUE were analyzed under two different water environments. The results indicated that there were significant differences in δ13C, grain yield, and WUE among wheat genotypes both under rain-fed and supplemental irrigation conditions. The δ13C values increased with grain-filling proceeding, the δ13C being lower under supplemental irrigation treatment than that under rain-fed treatment. The relationships between the average of δ13C with grain yield and WUE were significantly positive during three measurement periods (R2 = 0.5785 − 0.8258), whether under rain-fed or irrigation environments. This suggests that δ13C might be associated with the grain yield and WUE in winter wheat under rain-fed and supplemental irrigation conditions in the climate region of the northwest Huang-Huai-Hai Plain of China.

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