Photosynthetic Characteristics, Dry Matter Accumulation and Translocation, Grain Filling Parameter of Three Main Maize Varieties in Production

Substantial genetic and physiological efforts were made to understand the causal factors of floral abortion and grain filling problem in wheat. However, the vascular architecture during wheat spikelet development is surprisingly under-researched. We used the branched headt near-isogenic lines, FL-bht-A1-NILs, to visualise the dynamics of spikelet fertility and dry matter accumulation in spikelets sharing the same rachis node (henceforth Primary Spikelet, PSt, and Secondary Spikelet, SSt). The experiment was conducted after grouping FL-bht-A1-NILs into two groups, where tillers were consistently removed from one group. Our results show differential spikelet fertility and dry matter accumulation between the PSt and SSt, but also showed a concomitant improvement after de-tillering. This suggests a tight regulation of assimilate supply and dry matter accumulation in wheat spikelets. Since PSt and SSt share the same rachis node, the main vascular bundle in the rachis/rachilla is expected to bifurcate to connect each spikelet/floret to the vascular system. We postulate that the vascular structure in the wheat spikelet might even follow Murray’s law, where the wide conduits assigned at the base of the spikelet feed the narrower conduits of the distal florets. We discuss our results based on the two modalities of the vascular network systems in plants.

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Dry matter accumulation and partitioning and its relationship to grain yield in wheat

Australian Journal of Experimental Agriculture ◽

10.1071/ea9950495 ◽

1995 ◽

Vol 35 (4) ◽

pp. 495 ◽

Cited By ~ 10

Author(s):

RG Flood ◽

PJ Martin ◽

WK Gardner

Keyword(s):

Grain Yield ◽

Dry Matter ◽

Grain Filling ◽

Dry Matter Accumulation ◽

The North ◽

Similar Range ◽

Total Crop ◽

Grain Filling Period ◽

Stem Reserves ◽

North Western

Total crop dry matter (DM) production and its components, remobilisation of stem reserves, and the relation of these to grain yield were studied in 10 wheat cultivars sown at Walpeup, Boort, and Horsham in the north-western Victorian wheatbelt. Between sites, all DM components decreased in the order Horsham > Boort > Walpeup. Differences between Boort and Walpeup were not always significant. Total DM at anthesis for Walpeu,p and Boort was in a similar range, and less than that for Horsham. Yields increased in the order Walpeup < Boort < Horsham. When data from the 3 sites were combined, leaf, stem (excluding cv. Argentine IX), and total DM were related to grain yield. Within sites, ear DM at anthesis was related to grain yield. Grain yield for all cultivars at Horsham and Walpeup and 5 cultivars at Boort was greater than the increases in crop DM from anthesis to maturity, indicating that pre-anthesis stored assimilates (stem reserves) were used for grain filling. Post-anthesis decrease in stem weight was inversely related to grain yield only at Horsham, which supports the view of utilisation of stem reserves for grain filling at this site. At Boort and Walpeup there was a similar negative trend, but values for 2 cultivars at each site were outliers, which weakened the trend. The wide adaptability of the Australian cultivars used in this study may be related to the differential remobilisation of stem reserves at each site. A measure of yield stability, however, was not related to stem weight loss during the grain-filling period.

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Water use of wheat, barley, canola, and lucerne in the high rainfall zone of south-western Australia

Australian Journal of Agricultural Research ◽

10.1071/ar04297 ◽

2005 ◽

Vol 56 (7) ◽

pp. 743 ◽

Cited By ~ 12

Author(s):

Heping Zhang ◽

Neil C. Turner ◽

Michael L. Poole

Keyword(s):

Soil Water ◽

Water Use ◽

Western Australia ◽

Dry Matter ◽

Grain Filling ◽

Rooting Depth ◽

Dry Matter Accumulation ◽

High Rainfall ◽

Annual Crops ◽

Significant Difference

Water use of wheat (Triticum aestivum L.), barley (Hordeum vulgare L.), canola (Brassica napus L.), and lucerne (Medicago sativa L.) was measured on a duplex soil in the high rainfall zone (HRZ) of south-western Australia from 2001 to 2003. Rainfall exceeded evapotranspiration in all years, resulting in transient perched watertables, subsurface waterlogging in 2002 and 2003, and loss of water by deep drainage and lateral flow in all years. There was no significant difference in water use among wheat, barley, and canola. Lucerne used water at a similar rate to annual crops during the winter and spring, but continued to extract 80−100 mm more water than the annual crops over the summer and autumn fallow period. This resulted in about 50 mm less drainage past the root-zone than for annual crops in the second and third years after the establishment of the lucerne. Crop water use was fully met by rainfall from sowing to anthesis and a significant amount of water (120−220 mm) was used during the post-anthesis period, resulting in a ratio of pre- to post-anthesis water use (ETa : ETpa) of 1 : 1 to 2 : 1. These ratios were lower than the indicative value of 2 : 1 for limited water supply for grain filling. High water use during the post-anthesis period was attributed to high available soil water at anthesis, a large rooting depth (≥1.4 m), a high proportion (15%) of roots in the clay subsoil, and regular rainfall during grain filling. The pattern of seasonal water use by crops suggested that high dry matter at anthesis did not prematurely exhaust soil water for grain filling and that it is unlikely to affect dry matter accumulation during grain filling and final grain yield under these conditions.

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Growth of spring barley under drought: crop development, photosynthesis, dry-matter accumulation and nutrient content

The Journal of Agricultural Science ◽

10.1017/s002185960003197x ◽

1981 ◽

Vol 96 (1) ◽

pp. 167-186 ◽

Cited By ~ 56

Author(s):

D. W. Lawlor ◽

W. Day ◽

A. E. Johnston ◽

B. J. Legg ◽

K. J. Parkinson

Keyword(s):

Leaf Area Index ◽

Leaf Area ◽

Dry Matter ◽

Spring Barley ◽

Grain Filling ◽

Dry Matter Accumulation ◽

Area Index ◽

Water Deficits ◽

Maximum Value ◽

Grain Filling Period

SUMMARYThe effects of water deficit on growth of spring barley were analysed under five irrigation treatments. One crop was irrigated at weekly intervals from emergence throughout the growing season, and one was not irrigated at all after emergence. Soil water deficits in the other treatments were allowed to develop early, intermediate or late in the crop's development.Weekly irrigation produced a crop with a large leaf area index (maximum value 4) and maintained green leaf and awns throughout the grain-filling period. Early drought decreased leaf area index (maximum value 2) by slowing expansion of main-stem leaves and decreasing the number and growth of tiller leaves. Leaf senescence was also increased with drought. Drought late in the development of ears and leaves and during the grain-filling period caused leaves and awns to senesce so that the total photosynthetic areas decreased faster than with irrigation. Photosynthetic rate per unit leaf area was little affected by drought so total dry-matter production was most affected by differences in leaf area.Early drought gave fewer tillers (550/m2) and fewer grains per ear (18) than did irrigation (760 tillers/m2 and 21 grains per ear). Late irrigation after drought increased the number of grains per ear slightly but not the number of ears/m2. Thus at the start of the grain-filling period crops which had suffered drought early had fewer grains than irrigated (9·5 and 18·8 × 103/m2 respectively) or crops which suffered drought later in development (14 × 103/m2).During the first 2 weeks of filling, grains grew at almost the same rate in all treatments. Current assimilate supply was probably insufficient to provide this growth in crops which had suffered drought, and stem reserves were mobilized, as shown by the decrease in stem mass during the period. Grains filled for 8 days longer with irrigation and were heavier (36–38 mg) than without irrigation (29–30 mg). Drought throughout the grainfilling period after irrigation earlier in the season resulted in the smallest grains (29 mg).Grain yield depended on the number of ears, the number of grains per ear and mass per grain. Early drought decreased tillering and tiller ear production and the number of grains that filled in each ear. Late drought affected grain size via the effects on photosynthetic surface area.Drought decreased the concentrations of phosphorus, potassium and magnesium in the dry matter of crops, and irrigation after drought increased them. Concentration of nitrogen was little affected by treatment. Possible mechanisms by which water deficits and nutrient supply affect crop growth and yield are discussed.

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Effects of Exposure of Wheat Ears to High Temperature on Dry Matter Accumulation and Carbohydrate Metabolism in the Grain of Two Cultivars. I. Immediate Responses

Functional Plant Biology ◽

10.1071/pp9910165 ◽

1991 ◽

Vol 18 (2) ◽

pp. 165 ◽

Cited By ~ 32

Author(s):

CF Jenner

Keyword(s):

High Temperature ◽

Sucrose Synthase ◽

Dry Matter ◽

Starch Synthesis ◽

Grain Filling ◽

Mass Action ◽

Dry Matter Accumulation ◽

Partial Explanation ◽

Calculated Mass ◽

Percentage Basis

Ears of wheat were exposed for up to 7 days during the grain-filling stage to high temperature (35�C day/25�C night) and metabolic responses in the grain were compared to those in ears maintained at lower temperatures (21�C day/16�C night). Two cultivars of wheat known to differ in their post-anthesis tolerance of high temperature were compared. Raising the temperature resulted in a small increase in the rate of dry matter accumulation: both cultivars responded similarly. Sucrose content of the endosperm was either not affected or increased by raising the temperature. Raising the temperature had differential effects on glucose and fructose content: fructose was substantially reduced while glucose was either unaffected or slightly increased. After raising the temperature the concentrations of all three hexose phosphates measured, glucose-6-phosphate (G-6-P), glucose-1-phosphate (G-1-P) and fructose-6-phosphate (F-6-P), were reduced similarly on a percentage basis and to about the same extent as fructose. The concentration of the sugar nucleotide (UDP-glucose) resulting from the breakdown of sucrose by sucrose synthase was also reduced at high temperature. Judging from calculated mass-action ratios, all three catalytic steps involved in the interconversion of the metabolites mentioned above were close to equilibrium, and only one mass action ratio (for sucrose synthase) was affected by heating: it was doubled. Although temperature clearly resulted in changes in the reaction catalysed by sucrose synthase, it was not clear how temperature had acted. Concentration of the precursor for starch synthesis (ADP-glucose) was slightly lower in both cultivars at the higher temperature. Taken together the responses could provide at least a partial explanation for the smallness of the increase in starch deposition with increase in temperature, but do not explain the different responses of these two cultivars to high temperature.

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Doses and Times of Trinexapac-ethyl Application in Soybean Development and Yield

Journal of Agricultural Science ◽

10.5539/jas.v11n14p234 ◽

2019 ◽

Vol 11 (14) ◽

pp. 234

Author(s):

L. Z. de S. Sales ◽

E. Lazarini ◽

I. R. Sanches ◽

J. W. Bossolani ◽

F. L. dos Santos ◽

...

Keyword(s):

Experimental Design ◽

Growth Regulators ◽

Growth Regulator ◽

Vegetative Growth ◽

Dry Matter ◽

Grain Filling ◽

Dry Matter Accumulation ◽

Phenological Stage ◽

Phenological Stages ◽

Agronomic Characteristics

The intense vegetative growth is one of the problems faced by soybean producers, causing the lodging, making difficult and damaging the harvest and, even, the efficiency of the application of agricultural defenses. The use of growth regulators is an important tool in the management of growth, in addition, it can favor the transport of photoassimilates for grain filling. Therefore, the objective was to evaluate the best dose and time of trinexapac-ethyl application in the development and yield of soybean varieties. The experiment was conducted in the Selvíria County, Brazil (20°20′53″ S, 51°24′02″ W). The experimental design was used in randomized blocks with treatments arranged in a factorial scheme 5 x 3 (doses x times), with four replications. The varieties used were the BRS Valiosa RR and the BMX Potência RR, the doses of the growth regulator were 0; 50; 100; 200 and 400 g ha-1 of trinexapac-ethyl (Moddus®) and the application times were at the phenological stages V7, V10 and R2. The varieties BRS Valiosa and BMX Potência, respectively, were obtained at the phenological stage V10, with application of 200 g ha-1 of trinexapac-ethyl, greater dry matter accumulation of leaves and pods. Nevertheless, the same did not act on the foliar area of the BRS Valiosa RR variety in the same way that it did not induce changes in the production components of the BMX Potência RR variety. Regardless of the application period (V7, V10 and R2) and the dose (up to 400 g ha-1), the application of trinexapac-ethyl was not a management capable of influencing the agronomic characteristics and the lodging of the plants in both varieties.

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Dynamics of dry matter accumulation in internodes indicates source and sink relations during grain-filling stage of japonica rice

Field Crops Research ◽

10.1016/j.fcr.2020.108009 ◽

2020 ◽

pp. 108009

Author(s):

Hongfa Xu ◽

Zunxin Wang ◽

Feng Xiao ◽

Lei Yang ◽

Ganghua Li ◽

...

Keyword(s):

Dry Matter ◽

Grain Filling ◽

Japonica Rice ◽

Dry Matter Accumulation ◽

Filling Stage ◽

Grain Filling Stage ◽

Source And Sink

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Influence of drought stress on the photosynthetic characteristics and dry matter accumulation of hybrid millet

Photosynthetica ◽

10.1007/s11099-015-0120-7 ◽

2015 ◽

Vol 53 (2) ◽

pp. 306-311 ◽

Cited By ~ 9

Author(s):

H. B. Lu ◽

Y. M. Qiao ◽

X. C. Gong ◽

H. Q. Li ◽

Q. Zhang ◽

...

Keyword(s):

Drought Stress ◽

Dry Matter ◽

Photosynthetic Characteristics ◽

Dry Matter Accumulation

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EFFECT OF SOURCE-SINK RATIO ON DRY MATTER ACCUMULATION AND LEAF SENESENCE OF MAIZE

Canadian Journal of Plant Science ◽

10.4141/cjps82-128 ◽

1982 ◽

Vol 62 (4) ◽

pp. 855-860 ◽

Cited By ~ 45

Author(s):

M. TOLLENAAR ◽

T. B. DAYNARD

Keyword(s):

Growth Rate ◽

Leaf Senescence ◽

Dry Matter ◽

Grain Filling ◽

Crop Growth ◽

Dry Matter Accumulation ◽

Crop Growth Rate ◽

Maize Hybrids ◽

Grain Filling Period ◽

Source Sink

The effect of source-sink ratio (i.e., the ability of the leaves to produce photosynthate versus the capacity of the grain to accommodate the assimilates) on dry matter accumulation and leaf senescence during the grain filling period of two short-season maize (Zea mays L.) hybrids was investigated in 1979 and 1980. Source-sink ratio of the maize hybrids was altered by ear removal at midsilking and at 3 wk after midsilking; by partial fertilization of the topmost ear so that treatment ears contained approximately 50% of kernel number of the control; and by removal of all leaf blades but that of the ear leaf at 2 wk after midsilking. Crop growth rate during the period from 3–5 wk after midsilking was reduced by 30% for the partly fertilized treatment and by 60% for both ear removal treatments. During the period from 5 to 7 wk after midsilking, the treatment-by-hybrid interaction for crop growth rate reflected different patterns of leaf senescence. In one hybrid, treatments which caused reductions in sink size delayed leaf senescence and increased the crop growth during the 5 to 7-wk postsilking interval, relative to the control. The reverse was evident for the other hybrid. Partial defoliation tended to cause the remaining ear leaf to senescence slightly earlier than in the control. Apparently two types of leaf senescence occurred: senescence due to assimilate starvation, and senescence due to excessive assimilate accumulation. The former caused by excessively low source-sink ratio and the latter caused by excessively high source-sink ratio. These results indicate that a delicate balance exists between sink and source during the grain-filling period of maize, and that disturbance of this balance can cause substantial yield reductions, plus an acceleration of leaf senescence and maturation processes.

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