scholarly journals FORMATION THE PRODUCTIVITY OF PEA VARIETIES WITH THE DEFORMATION OF LIGNIN IN LEGUME’S VALVE DEPENDING ON CROPS DENSITY

2019 ◽  
Vol 14 (2) ◽  
pp. 58-63
Author(s):  
Александра Фадеева ◽  
Aleksandra Fadeeva ◽  
Ксения Шурхаева ◽  
Kseniya Shurhaeva
Keyword(s):  
Plant Development ◽  
Strong Dependence ◽  
Seed Mass ◽  
Reproductive Organs ◽  
Planting Density ◽  
Critical Periods ◽  
Seeding Rate ◽  
Moisture Supply ◽  
Field Germination ◽  
Viable Seeds

The optimal sowing density for realizing the potential of varieties is regulated by the seeding rate, which is subject to a strong dependence on genotypic features, the influence of agroecological, meteorological factors. The aim of the research is to study the effect of various seeding rates on the realization of the productivity potential of new pea varieties Kaban and Fregat with parchment-free beans in contrasting conditions of moisture and heat supply in plant development phases. The conditions of 2014 were characterized by a deficit of moisture and an elevated temperature during the critical periods of plant growth. The size of the potential of varieties in 2015 was limited to a strict regime in the period of plant development and the formation of reproductive organs. The optimal sowing structure of Kaban variety was formed with a planting density of 1.0–1.2 million viable seeds. The best values of survival and conservation of plants in dry conditions were obtained when sowing with the minimum rate. With an improved moisture supply regime, they reached 95.0 and 98.3%. The planting structure of the leafless small seed Fregat variety under conditions of moisture deficiency was characterized by an increase in field germination, plant survival and survival, respectively, up to 100.0, 97.8 and 97.9% when sown with a density of 1.4 million germinating seeds. The optimal structure was formed at a seeding rate of 1.2 million viable seeds with field germination values of 97.5, a survival rate of 93.3 and a plant life of 95.7%. The increase in planting density led to an aggravation of the competitive relationship of plants, manifested in a decrease in the value of the seed mass with plants, regardless of the varietal characteristics. A high proportion of the effect on the variability of this indicator was proved, depending on the seeding rate, reaching 70.8-90.3% for varieties. The significant effect of the conditions of the year was estimated by a low proportion of influence (8.3–9.7%), the interaction of these factors did not have a significant effect. The maximum productivity of sowing per unit area, determined by the density of plants and their seed mass, when deducting seeds spent on sowing, Kaban variety was formed at a seeding rate of 1.2 million viable seeds, regardless of the conditions of the year. The optimum planting density of Fregat variety is 1.0 in arid and 1.2 million viable seeds with an increase in moisture supply.

scholarly journals PLANT DENSITY AND FIELD GERMINATION OF WINTER TRITICALE DEPENDING ON VARIETY AND NORMAL SEEDING SEEDS

2018 ◽  
Vol 13 (4) ◽  
pp. 83-86
Author(s):  
Леонид Шашкаров ◽  
Leonid Shashkarov ◽  
Светлана Толстова ◽  
Svetlana Tolstova
Keyword(s):  
Plant Density ◽  
Maximum Yield ◽  
Stand Density ◽  
Weather Conditions ◽  
Planting Density ◽  
Seeding Rate ◽  
Southeastern Part ◽  
Winter Triticale ◽  
Field Germination ◽  
Plant Stand

The article deals with the issues of plant density and field germination of winter triticale on gray forest soils of the southeastern part of the Volga-Vyatka zone depending on the variety and seeding rates. The question of establishing the optimum density of sowing, the area of food for grain crops served as the object of study by many researchers. The urgency of the issue of creating optimal sowing density is explained by the fact that the factors that determine the magnitude of the yield are constantly changing. The plant stand density and field germination of winter triticale are significantly influenced by the weather conditions formed during the growing season of winter triticale plants. With an increase in seeding rates, the plant stand density and seeding rate increases, respectively, is important for the formation of a given density of productive stalks. In production, these elements of technology are often underestimated and often unjustifiably overestimate the seeding rate, which is absolutely unnecessary, since the really possible yield is achieved at an optimal seeding rate with minimal seed consumption. The winter triticale seeding rates, both in Russia and in the world as a whole varies from 2 to 8 million viable seeds per hectare. The urgency of the issue of creating optimal sowing density is explained by the fact that the factors that determine the magnitude of the yield are constantly changing. Until now, there is no consensus on the dependence of planting density on the degree of fertility. Some researchers believe that nutrient-rich soil requires less seed for maximum yield. Under these conditions, the plants develop better, they bush more, the maximum yield can be obtained with a lower seeding rate. The opposite opinion that it is necessary to sow thicker on rich soils has become widespread, especially in recent years. Advocates of the bottom conclusion explain their point of view by the fact that fertile soil has a greater supply of food and moisture, therefore, more plants can be grown on the same area, which means that the seeding rate should be increased [1,2.3,4.5,6,7]. Research results indicate that winter triticale with increasing seeding rates increases plant density and field germination of winter triticale plants.

Impact of Spring Wheat Planting Density, Row Spacing, and Mechanical Weed Control on Yield, Grain Protein, and Economic Return in Maine

Weed Science ◽  
2012 ◽  
Vol 60 (2) ◽  
pp. 244-253 ◽  
Author(s):  
Lauren N. Kolb ◽  
Eric R. Gallandt ◽  
Ellen B. Mallory
Keyword(s):  
Weed Control ◽  
Weed Management ◽  
Weed Suppression ◽  
Planting Density ◽  
Grain Protein ◽  
Seeding Rate ◽  
Management Options ◽  
Weed Density ◽  
Net Returns ◽  
Farmer Practices

Effective in-season weed management options are limited for organic cereal farmers. Two alternatives to current farmer practices are improving efficacy of physical weed control through use of interrow cultivation or increasing the competitive ability of the crop through elevated seeding rates and more uniform spatial planting patterns. It is unknown how these two methods affect yield, quality, and economic returns. Field experiments were conducted in the northeast United States to determine whether the yield gain from increased weed control from these contrasting weed management strategies resulted in increased net returns and how these different systems affected grain quality. Wheat was planted at two seeding rates (400 and 600 plants m−2), in three row spacings (11, 18, and 23 cm). A fourth crop arrangement that approaches a more uniform spatial distribution through a combination of drilling and broadcasting seed was included. For weed control, treatments received tine harrowing. Wheat sown in wide rows also received interrow cultivation. Each system was sown in the presence and absence of condiment mustard, which was sown as a surrogate weed. Increased seeding rate reduced weed density 64% compared to a crop-free check and 30% compared to regional farmers' practices of 18-cm rows and 400 plants m−2. Increased seeding rates lowered grain protein 5% compared to standard seeding rates. Wide rows, in combination with interrow cultivation, reduced weed density 62%, increased yield 16%, and net returns 19% compared to regional organic practices. Significant increases in grain N were limited to weed-free plots. While increased seeding rates improved weed suppression, the high input cost of organic seed make this an unsatisfactory alternative to interrow cultivation and current farmer practices, as yield would need to be. 15 t ha−1higher at elevated density to offset the extra cost of seed.

IMPROVED EARLY SEASON MANAGEMENT OF SUB1 RICE VARIETIES ENHANCES POST-SUBMERGENCE RECOVERY AND YIELD

2018 ◽  
Vol 55 (1) ◽  
pp. 105-116 ◽  
Author(s):  
NINO P. M. BANAYO ◽  
RANEE C. MABESA-TELOSA ◽  
SUDHANSHU SINGH ◽  
YOICHIRO KATO
Keyword(s):  
Management Practices ◽  
Field Experiments ◽  
Transition Period ◽  
Management Practice ◽  
Recovery Period ◽  
Planting Density ◽  
Shoot Biomass ◽  
Seeding Rate ◽  
Rice Varieties ◽  
Conventional Practice

SUMMARYMore than 10 Sub1 rice varieties carrying the submergence-tolerance gene have been released for flood-prone environments in tropical Asia. Improved management practices have been shown to enhance yields of these varieties. The objective of this study was to dissect the growth response of IR64-Sub1 to integrated crop management in a flash flood at the late vegetative stage. Field experiments were conducted at the International Rice Research Institute, Philippines in the dry and wet seasons of 2013. Complete submergence was imposed for 14 days starting at 37 days after transplanting. Integrated management practice (IMP) consisting of: (i) application of fertilizer (compared with no fertilizer use in conventional practice), (ii) use of lower seeding rate (400 vs. 800 kg ha−1) in the nursery bed, (iii) use of slightly older seedling for transplanting (30 vs. 18 day-old), and (iv) higher planting density (33.3 vs. 25.0 hills m−2) gave yields higher by 8–87% compared with the conventional practice (1.3–2.4 t ha−1) in both seasons. This was attributable to higher shoot biomass after water recession, more tillers m−2, greater leaf area expansion and shoot biomass accumulation during the recovery period, and higher filled-grain percentage at maturity. The improved management had no positive effect on panicle formation, spikelets panicle−1, and harvest index since stress was imposed at the transition period between vegetative and reproductive phases. Our results suggest the appropriate nursery management, for submergence-resilient seedlings to further alleviate damage caused by flash floods and increase the yield of Sub1 varieties in flood-prone rainfed lowlands.

Effet du chiendent sur l'orge ensemencée à différents écartements entre les rangs et doses de semis

1995 ◽  
Vol 75 (3) ◽  
pp. 613-618 ◽  
Author(s):  
D. Pageau ◽  
G. F. Tremblay
Keyword(s):  
Specific Weight ◽  
Kernel Weight ◽  
Yield Reduction ◽  
Row Spacing ◽  
Seeding Rate ◽  
Hordeum Vulgare L ◽  
Spike Density ◽  
Spike Number ◽  
Viable Seeds ◽  
Narrow Row

A 4-yr study was conducted to evaluate the effect of two row spacings (10 and 20 cm) and five seeding rates of the cereal (100, 200, 300, 400 and 500 viable seeds m−2) on the interference between quackgrass [Elymus repens (L.) Nevski] and barley (Hordeum vulgare L. 'Cadette'). Narrow row spacings had no effect on the yield of barley in presence or absence of quackgrass. However, seeding rates influenced the productivity and development of barley when quackgrass was present. At a seeding rate of 100 seeds m−2, the yield reduction caused by the presence of quackgrass was 41%. When barley was seeded at 500 seeds m−2, the yield reduction was 19%. These yield reductions were mainly attributed to a decrease of spike density. In presence of quackgrass, the specific weight, number of kernels per spike, number of spikes per plant, 1000-kernel weight, harvest index and N concentration of grain were reduced. In contrast to a decrease of the row spacing, increasing seeding rate can be used to reduce interference between quackgrass and barley. Key words: Barley, quackgrass, interference, row spacing, seeding rate

scholarly journals Major Critical Periods in Developmental Pathogenomics of Endometriosis

2019 ◽  
Vol 3 (1) ◽  
pp. 01-02
Author(s):  
Vladislav Baranov
Keyword(s):  
Molecular Mechanisms ◽  
Reproductive Tract ◽  
Benign Tumor ◽  
Reproductive Organs ◽  
Genetic Program ◽  
Female Reproductive Tract ◽  
Critical Periods ◽  
Uterine Endometrium ◽  
Common Benign Tumor ◽  
Major Genome

In spite on numerous experimental and clinical data molecular mechanisms of endometriosis (EM) - the most common benign tumor of the female reproductive tract still remains obscure . The deciphering enigmas of EM gave a birth to a number of hypothesis . System genetics approach used in our studies of common diseases support the existence of special genetic program of EM operative in its development. It is taken for granted that EM results from abnormal differentiation of stem cells (SC). Two major sources of EM SC are considered : SC disseminated throughout peritoneum during female reproductive organs embryogenesis , SC from junction zone the uterine endometrium (2) [6]. According to our reviewed hypothesis [7] the genetic program of EM consists of several critical periods (CP) [8] corresponding to three crucial events in EM development with each of them corresponding to major genome reprogramming in EM cells.

scholarly journals INFLUENCE OF PRECURSES AND SOWING DATE ON OVER-WINTERING AND WINTER WHEAT PRODUCTIVITY UNDER CHANGING REGIONAL CONDITIONS

2020 ◽  
Vol 15 (2) ◽  
pp. 66-71
Author(s):  
Rezeda Sharipova ◽  
Robert Hakimov ◽  
Natal'ya Hakimova
Keyword(s):  
Winter Wheat ◽  
Optimal Time ◽  
Winter Period ◽  
Forest Steppe ◽  
Seeding Rate ◽  
Phase Form ◽  
Sowing Dates ◽  
Ulyanovsk Region ◽  
Winter Crops ◽  
Viable Seeds

The research was carried out in order to determine the optimal time for sowing winter wheat according to various predecessors in the changing climate of Volga forest-steppe. The work was carried out in 2013–2019 in Ulyanovsk region on heavy loamy leached chernozem using conventional techniques. The experimental scheme provided for the study of two predecessors (peas and pure fallow) of winter soft wheat of Marafon variety, sown at 6 sowing dates with an interval of 10 days (from August 20 to October 10). The seeding rate for pure fallow is 5.0 million viable seeds per hectare, for peas - 5.5 million viable seeds per hectare. Average annual air temperature for 1961–2018 increased by 1.8°С. Its most significant increase was noted in the last twenty-five year period of time in the winter months. The increase in the frequency of extremely warm winters and temperature variability in the winter period significantly changed the conditions for overwintering winter crops. The danger of the development of wintering weeds, damping diseases, and soaking of winter crops has increased, and the conditions for overwintering pests have improved. It is possible to mitigate the danger of the natural and climatic vulnerability of crops during the wintering period by observing the optimal sowing dates, which should be postponed to a later period (7 ... 12 days), compared with the previously recommended ones. The optimal sowing period for winter wheat in Ulyanovsk region is from August 30 to September 10. Earlier crops are more intensively affected by diseases (powdery mildew and brown rust), and later crops, which have left in the winter in the germination phase, form a low density, form a small ear and provide low productivity or completely die

scholarly journals Lazurit winter wheat seeding rates in dependence to the predecessors and time of sowing in the Rostov region

2019 ◽  
Vol 20 (6) ◽  
pp. 548-556
Author(s):  
A. S. Popov
Keyword(s):  
Winter Wheat ◽  
Conflict Of Interest ◽  
Sowing Date ◽  
Ordinary Chernozem ◽  
Seeding Rate ◽  
Sowing Time ◽  
Yield Level ◽  
Rostov Region ◽  
Sowing Dates ◽  
Viable Seeds

The study is aimed at determining the optimal seeding rates for durum winter wheat Lazurit variety by various seeding dates that would provide the highest grain yield in the conditions of Rostov region. The research was carried out in 2016-2018 on ordinary chernozem after different predecessors for winter wheat (black fallow and sunflower). Studied were: the seeding rates (3 mln, 4 mln, 5 mln viable seeds per hectare after the black fallow predecessor; 5 mln, 6 mln ,7 mln viable seeds per hectare after the sunflower predecessor), and the sowing date (the 10th,20th,30th of September, the10th of October). It has been established that after the black fallow predecessor the seeding rate for durum winter wheat Lazurit variety can be reduced to 3 million viable seeds/ha on the early sowing date (September,10) and optimal sowing date (September, 20). When sowing at the end of optimal (September, 30) and acceptable (October,10) periods, the sowing rate must be 5 million viable seeds/ha. After the sunflower predecessor, on the early sowing date (September,10) and optimal sowing dates (September, 20 and 30) the sowing rate of 5 million viable seeds/ha should be used. At the end of acceptable periods (October,10) the sowing rate should be increased to 6 million viable seeds/ha. After the black fallow predecessor, the highest yield of durum winter wheat has been formed – from 4.61 to 6.06 t/ha depending on the sowing rate and time of sowing. After the sunflower predecessor the yield level ranged from 3.43 to 4.28 t/ha. The optimal sowing time for durum winter wheat Lazurit variety in the south of Rostov region has been established - from the 10th to the 30th of September. Sowing in this period provided the largest number of productive stems (after the black fallow predecessor – 476-568 pcs/m2, after the sunflower predecessor – 420-512 pcs/m2), the grain mass per ear (1.21-1.36g and 0.91-1.08g), the plant height (95-100 cm and 92-100 cm), the ear length (6 cm and 4-5 cm, respectively).Conflict of interest: the author stated that there was no conflict of interest.

scholarly journals Nitrogen fertilization and genotypes of peaches in high-density

2020 ◽  
Vol 42 (6) ◽  
Author(s):  
Caroline Farias Barreto ◽  
Luis Eduardo Correa Antunes ◽  
Letícia Vanni Ferreira ◽  
Renan Navroski ◽  
Jorge Atílio Benati ◽  
...  
Keyword(s):  
Plant Development ◽  
Nitrogen Fertilization ◽  
High Density ◽  
Planting Density ◽  
Mass Yield ◽  
Plant Yield ◽  
Trunk Diameter ◽  
Maximum Production ◽  
Peach Trees ◽  
Fruit Mass

Abstract Among the factors that affect peach productivity is the proper nutrition of plants, being nitrogen (N) one of the main nutrients for the crop. Thus, the objective of the current study was to evaluate the effect of nitrogen fertilization on macronutrient leaf contents, plant development and production of different genotypes of peach trees cultivated at high planting density, seeking to recommend the most appropriate concentration. The experiment was conducted between 2016 and 2018 using peach selections ‘Cascata 1513’ and ‘Cascata 1067’ and with nitrogen fertilization concentrations (0, 60, 120 and 180 kg ha-1 of N). Pruning mass, trunk diameter, number of fruits per plant, average fruit mass, yield per plant, yield per hectare and leaf macronutrients were evaluated. The increase of N concentration increases the N content in leaves. For the conditions of this experiment the maximum production per plant was obtained for the highest dose of 180 Kg ha of N.

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