Effect of Harvest Time of Rice after Seeding of Italian ryegrass on Growth Characteristics and Dry Matter Yield of IRG in Paddy Field

Pure stands of alfalfa, bromegrass, orchardgrass and timothy, each represented by two varieties differing in maturity and/or plant type, were harvested weekly during their first crop growth in 1961, 1962, and 1963.All forages consistently increased in dry matter yield until approximately the early-seed stage. Differences in rate of growth, development and dry matter yield occurred between and within forages and years. Bromegrass, the earliest to start growth, and timothy had similar final yields of dry matter, alfalfa was intermediate and orchardgrass was lowest.At the heading stage in the grasses and at the very-first-flower stage in alfalfa, all species had stored 70% of their dry matter but 82% of their in vitro-digestible dry matter (IVD) yield. Unlike dry matter, IVD yields increased slowly after early June.The crude protein content and yield were considerably lower in the grasses than in alfalfa. Varietal yield differences within a species were small except for orchardgrass. At the suggested harvest time, alfalfa had stored 87% of its maximum crude protein yield, and the grasses, 96%.

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Aqueous ammonia compared with other nitrogenous fertilizers as solids and solutions on grass

The Journal of Agricultural Science ◽

10.1017/s0021859600014647 ◽

1968 ◽

Vol 71 (2) ◽

pp. 195-203 ◽

Cited By ~ 4

Author(s):

D. R. Hodgson ◽

A. P. Draycott

Keyword(s):

Ammonium Nitrate ◽

Ammonium Sulphate ◽

Dry Matter ◽

Field Experiments ◽

Aqueous Ammonia ◽

Single Injection ◽

Maximum Yield ◽

Italian Ryegrass ◽

Dry Matter Yield ◽

Single Application

SUMMARYField experiments with Italian ryegrass cut four times a year compared aqueous ammonia with ammonium sulphate and with a mixture of ammonium nitrate and urea (equal parts by weight). In 1963 four rates of nitrogen, 224, 448, 672 and 896 lb/acre, were applied as single and split dressings of injected aqueous ammonia, as solid ammonium sulphate and as injected solution of ammonium sulphate. There was little difference in total dry-matter yield between a single injection of aqueous ammonia and the split dressing of solid. Injecting ammonium sulphate solution eliminated scorch caused by single applications of solid supplying 448 lb N/acre or more and gave significantly greater dry-matter yields. A single application of 448 lb N/acre provided enough nitrogen to sustain the response of the grass to the end of the season.In 1964 a single injection of aqueous ammonia was compared with ammonium nitrate/urea applied as solid or solution at 280, 560 and 840 lb N/acre. There was no difference in total dry-matter yield between aqueous ammonia and ammonium nitrate/urea at rates of 560 and 840 lb/acre. At 280 lb/acre a split dressing of solid produced most dry matter. More than 280 lb N/acre was required, therefore, as a single application in spring to last the whole season, but this rate of nitrogen applied as a split dressing was almost sufficient to give maximum yield.In both experiments the seasonal distribution of dry matter was similar for single and split applications except in 1963 when large single injections of ammonium sulphate produced greater yields at the third cut than the split applications. The percentage of nitrogen recovered in the harvested grass decreased as nitrogen rate was increased and was greater from single than split applications. Recovery of nitrogen from aqueous ammonia was less efficient from four injections than one, and was greater in 1964 than 1963 due to better penetration of the sward by injector tines. Least nitrogen was recovered from surface-applied solutions of ammonium nitrate/urea. Regressions of dry-matter yield on nitrogen yield showed that single injections of aqueous ammonia were as efficient as other fertilizers tested.

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RESPONSE OF PEAS TO ENVIRONMENT: I. PLANTING DATE AND LOCATION

Canadian Journal of Plant Science ◽

10.4141/cjps66-010 ◽

1966 ◽

Vol 46 (1) ◽

pp. 77-85 ◽

Cited By ~ 12

Author(s):

H. F. Fletcher ◽

A. R. Maurer ◽

D. P. Ormrod ◽

B. Stanfield

Keyword(s):

Dry Matter ◽

Planting Date ◽

Growth Characteristics ◽

Growth And Yield ◽

Maximum Temperature ◽

Dry Matter Yield ◽

Dark Skin ◽

Planting Dates ◽

The Mean ◽

Maximum Temperatures

The effect of 15 planting dates on various growth characteristics of peas var. Dark Skin Perfection was studied in outdoor pot experiments at Vancouver and Agassiz, B.C. Differences in growth and yield between locations and planting dates were partly accounted for by the mean of maximum temperatures for the growth period.At Agassiz where temperatures exceeded the optimum for most growth characteristics in many of the later plantings, the mean of maximum temperatures was negatively correlated with total dry-matter yield, peas per pod, and pea yield; was positively correlated with branching; and had no effect on pods per plant, double-podded nodes, and tillering. At Vancouver, where temperatures were suboptimum for the early plantings and approached optimum for the later plantings, the mean of maximum temperatures was positively correlated with total dry-matter yield, pods per plant, double-podded nodes, tillering, and pea yield but had no effect on peas per pod or branching. A seasonal mean maximum temperature of 68 to 70°F was considered to be optimum for peas.

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