SOURCES OF SULFUR FOR DRY MATTER, SEED YIELD, AND OIL CONCENTRATION OF CANOLA GROWN IN SULFUR DEFICIENT SOILS OF SOUTH-WESTERN AUSTRALIA

The response of Vicia sativa (cvv. Languedoc, Blanchefleur and Morava) and V. benghalensis (cv. Barloo) seed yield to seeding rate was examined in 9 field experiments across 2 years in south-western Australia. There were 2 types of field experiments: seeding rate (20, 40, 60, 100 and 140 kg/ha) × cultivar (Languedoc, Blanchefleur, and Morava or Barloo), and time of sowing (2 times of sowing of either Languedoc or Blanchefleur) × seeding rate (5,�7.5, 10, 15, 20, 30, 40, 50, 75 and 100 kg/ha).A target density of 40 plants/m2 gave 'optimum' seed yield of vetch in south-western Australia. In high yielding situations, with a yield potential above 1.5 t/ha, the 'optimum' plant density for the early flowering cultivar Languedoc (85–97 days to 50% flowering) was increased to 60 plants/m2. The later flowering cultivar Blanchefleur (95–106 days to 50% flowering) had an optimum plant density of 33 plants/m2 at all sites, regardless of fitted maximum seed yield. Plant density in the range 31–38 plants/m2 was found to be adequate for dry matter production at maturity of Languedoc and Blanchefleur. For the remaining cultivars Barloo and Morava we were unable to determine an average optimum density for either dry matter or seed yield due to insufficient and/or inconsistent data.

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Determinants of oil concentration and seed yield in canola and Indian mustard in the lower rainfall areas of Western Australia

Australian Journal of Agricultural Research ◽

10.1071/ar03151 ◽

2004 ◽

Vol 55 (3) ◽

pp. 367 ◽

Cited By ~ 37

Author(s):

P. Si ◽

G. H. Walton

Keyword(s):

High Temperature ◽

Water Deficit ◽

Seed Yield ◽

Western Australia ◽

Indian Mustard ◽

Sowing Date ◽

Early Flowering ◽

High Rainfall ◽

Percentage Points ◽

Oil Concentration

Oil concentration and seed yield of canola (Brassica napus) are usually low and variable when grown in the lower rainfall areas of Western Australia. This paper identifies determinants of oil concentration and seed yield in these areas. Through a series of cultivar × sowing date experiments at 5 lower rainfall locations and one high rainfall location as comparison, we evaluated the impact of sowing date, cultivar, and location on these 2 key agronomic traits. We also examined relationships between oil concentration, seed yield, and post-anthesis duration, post-anthesis temperature, and post-anthesis rainfall with a view to investigate the adaptive requirements of canola for the lower rainfall areas.Cultivars differed in their capacities to produce oil and seed yield. The ranking of cultivars for oil concentration, and seed yield to a lesser extent, remained constant across sowing dates and locations. Both seed yield and oil concentration decreased with delayed sowing. On average, oil concentration was reduced by 1.1 percentage points and seed yield by 309 kg/ha for every 2 weeks delay in sowing. The magnitude of reduction in oil concentration from delayed sowing was far greater in a low rainfall site at Mullewa than in the high rainfall site at Mt Barker.Later sowings shortened post-anthesis duration. With a given sowing date, early flowering cultivars resulted in longer post-anthesis duration. Oil concentration increased by 1.2 percentage points for a 10-day increase in post-anthesis duration. Both oil concentration and seed yield increased with higher post-anthesis rainfall and lower post-anthesis temperature. The rates of increase were 0.7 percentage points for oil and 116 kg/ha for seed yield for every 10-mm increase in post-anthesis rainfall. The rates of reduction were 0.68 percentage points for oil and 289�kg/ha for seed yield for every 1�C increase in post-anthesis temperature. These relationships suggest that a combination of an early date of sowing with an early flowering cultivar would be essential for the production of high yield and high oil canola in the lower rainfall areas. Indian mustard (B. juncea) showed tolerance to high temperature and water deficit, but the low yield potential makes it uneconomical with early sowing. Further improvement in seed yield could be dependent on increased tolerance of canola to high temperature and water deficit during seed growth and development.

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Comparison of the responses of two Indian mustard (Brassica juncea L.) genotypes to post-flowering soil water deficit with the response of canola (B. napus L.) cv. Monty

Crop and Pasture Science ◽

10.1071/cp08191 ◽

2009 ◽

Vol 60 (3) ◽

pp. 251 ◽

Cited By ~ 12

Author(s):

C. P. Gunasekera ◽

R. J. French ◽

L. D. Martin ◽

K. H. M. Siddique

Keyword(s):

Water Stress ◽

Water Use ◽

Seed Yield ◽

Harvest Index ◽

Dry Matter ◽

Dry Matter Production ◽

Mild Stress ◽

Matter Production ◽

Oil Concentration ◽

Total Oil

The responses to water stress during the post-flowering period of two mustard breeding lines (887.1.6.1 and Muscon) and a commercial canola cv. Monty were tested in the field at Merredin in the low-rainfall Mediterranean-type environment of Western Australia. Three water-stress treatments were imposed using supplemental irrigation and a rain-exclusion shelter. Increasing water stress in the post-flowering period significantly reduced dry matter production and seed yields. Harvest index was slightly increased by mild stress, but reduced back to control levels by severe stress. Pods/plant, seeds/pod, and 1000-seed weight were all reduced by water stress. Dry matter production was higher in mustard than in canola, due to its greater water use and radiation interception. Water-use efficiency (WUE) for dry matter production and radiation-use efficiency (RUE) were higher in mustard than in canola. WUE for dry matter production and RUE were insensitive to the levels of water stress in mustard in this experiment, but declined significantly in canola. The greater water use in mustard and insensitivity of WUE for dry matter production and RUE to water stress were attributed to significantly higher levels of osmotic adjustment in mustard, although osmotic adjustment was also observed in canola. Despite this, canola seed yield was not significantly lower than the seed yield of the better mustard genotype, although stress caused a significantly greater percentage yield reduction in canola. This is because canola had a higher harvest index, which also meant it had higher WUE than mustard for grain production under mild stress. Mustard’s poorer harvest index was due to more of the dry matter being invested in stem and, in the case of cv. Muscon, to a short reproductive duration and a low proportion of pod weight allocated to seed. Canola had significantly higher seed oil concentration than mustard, which meant that it produced higher total oil yield despite sometimes producing lower seed yield. However, its oil concentration was reduced more by stress than mustard’s, so under the most severe stress conditions, both mustard genotypes produced higher total oil yield. Mustard has potential as an oil-producing crop in the low-rainfall Mediterranean-type environments of Western Australia, but improved genotypes, greater harvest index, and greater seed yield are required.

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Adaptation and seed yield of cool season grain legumes in Mediterranean environments of south-western Australia

Australian Journal of Agricultural Research ◽

10.1071/a98096 ◽

1999 ◽

Vol 50 (3) ◽

pp. 375 ◽

Cited By ~ 119

Author(s):

K. H. M. Siddique ◽

S. P. Loss ◽

K. L. Regan ◽

R. L. Jettner

Keyword(s):

Seed Yield ◽

Western Australia ◽

Dry Matter ◽

Clay Content ◽

Grain Legumes ◽

Dry Matter Production ◽

Grain Legume ◽

Matter Production ◽

Bitter Vetch ◽

Seed Yields

A range of cool season grain legume species have shown considerable potential for soils unsuitable for the production of narrow-leafed lupin (Lupinus angustifolius L.) at limited sites in the Mediterranean-type environments of south-western Australia. In this study the adaptation of these grain legume species was compared by measuring crop phenology, growth, and yield in field experiments at a total of 36 sites over 3 seasons, with the aim of identifying species with suitable adaptation and seed yield for specific environments. The grain legumes examined appeared to fall into 3 categories: (i) field pea (Pisum sativum L.), faba bean (Vicia faba L.), common vetch (Vicia sativa L.), and narbon bean (Vicia narbonensis L.) clearly had superior seed yield to the other species over a wide number of sites and years across south-western Australia (mean 1.0–2.3 t/ha); (ii) albus lupin (Lupinus albus L.), desi chickpea (Cicer arietinum L.), and Lathyrus cicera, L. sativus, and L. ochrus produced seed yields of 1–1.3 t/ha; and (iii) red lentil (Lens culinaris L.), bitter vetch (Vicia ervilia), and kabuli chickpea (Cicer arietinum L.) generally produced the lowest yields (0.6–1.0 t/ha). There were clear species × environment interactions. At low-yielding sites (<1.4 t/ha), field pea was the highest yielding species, while faba bean often produced the highest seed yields under more favourable conditions at high yielding sites. Lentil, bitter vetch, Lathyrus spp., and desi chickpea showed average response to increasing mean site yield. Soil pH and clay content and rainfall were the environmental factors identified as the most important in determining seed yields. Soil pH and clay content appeared to be especially important in the adaptation of lentil, narbon bean, bitter vetch, and kabuli chickpea, with these species performing best in soils with pH >6.0 and clay contents >15%. Seed yields were positively correlated with dry matter production at maturity across a number of sites (r2 = 0.40, P < 0.01). Future improvements in seed yield of these species are likely to come from management practices that increase dry matter production such as increased plant density and early sowing, and through the development of genotypes with greater tolerance to low winter temperatures, and more rapid phenology, canopy development, and dry matter production than existing commercial cultivars.

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Growth, seed yield and water use of faba bean (Vicia faba L.) in a short-season Mediterranean-type environment

Australian Journal of Experimental Agriculture ◽

10.1071/ea97098 ◽

1998 ◽

Vol 38 (2) ◽

pp. 171 ◽

Cited By ~ 27

Author(s):

J. Mwanamwenge ◽

S. P. Loss ◽

K. H. M. Siddique ◽

P. S. Cocks

Keyword(s):

Water Use ◽

Seed Yield ◽

Western Australia ◽

Faba Bean ◽

Dry Matter ◽

Plant Density ◽

Root Length Density ◽

Early Flowering ◽

Dry Matter Accumulation ◽

Canopy Development

Summary. A number of studies conducted in Western Australia have shown that faba bean has considerable potential as a pulse crop in the low to medium rainfall cropping regions (300–450 mm/year). However, its yield is variable and can be low in seasons when rainfall is less than average. Traits associated with the adaptation of 10 diverse faba bean genotypes to low rainfall, Mediterranean-type environments were evaluated at Merredin in south-western Australia over 2 contrasting seasons. Plant density was varied with seed size to ensure all genotypes achieved similar canopy development and dry matter production. Time to flowering appeared to be the most important trait influencing seed yield of faba bean in this environment. Seed yield was significantly correlated with time to 50% first flower in 1994 and 1995 (r2 = 0.61 and 0.82 respectively, P<0.01). In the dry 1994 season, rapid leaf area development in ACC286 allowed a greater absorption of photosynthetically active radiation resulting in more dry matter accumulation than other genotypes. ACC286 also had greater root length density at 20–30 cm depth compared with Icarus and the standard cultivar Fiord. There were no significant differences in total water use between the genotypes examined, although the pattern of water use varied markedly. The ratio of pre- to post-flowering water use was about 1:1 in the early flowering and high yielding ACC286 and 2.6 :1 for the late maturing, low yielding Icarus. Seed yield and harvest index were positively correlated with post-flowering water use (r2 = 0.75 and 0.71 respectively). Above-average rainfall in 1995 resulted in increased yield of all genotypes, particularly ACC286 which again produced the highest yields. Early flowering genotypes with rapid dry matter accumulation in the seedling stages (such as ACC286) could widen the adaptation of faba bean to low rainfall, Mediterranean-type environments and situations where sowing is delayed.

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Effect of planting time on growth and seed yield of lupins, peas and vetches on the Swan Coastal Plain, Western Australia

Australian Journal of Experimental Agriculture ◽

10.1071/ea9740539 ◽

1974 ◽

Vol 14 (69) ◽

pp. 539 ◽

Cited By ~ 8

Author(s):

P Farrington

Keyword(s):

Seed Yield ◽

Western Australia ◽

Dry Matter ◽

Yellow Lupin ◽

Planting Dates ◽

Sharp Drop ◽

Planting Time ◽

Matter Production ◽

Field Peas ◽

Seed Yields

The effect of planting time on dry matter production and seed yield in yellow lupin cv. Weiko III, narrow-leafed lupin cv. Uniharvest and cv. Unicrop, field pea cv. Collegian and vetch cv. Blanchefleur was studied near Perth, Western Australia. Planting dates were March 19, April 16, May 14 and June 11. In the lupins and vetch, May and June plantings resulted in delayed emergence (yellow lupin and vetch only) and nodulation, and reductions in dry matter and seed yield. Yields of field peas were increased with later planting. Lupins produced most dry matter, seed and seed protein at the first three plantings but were no better than peas in the June planting. No significant differences in seed yields were found between the lupin cultivars, though in Unicrop seedling growth rates were consistently higher and seed yield tended to be less affected by delays in planting. A sharp drop in seed yield of lupins between the April and May plantings was associated with the production of fewer pods on the lateral axes. The reasons for this are discussed.

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A comparison of seed yields of winter grain legumes in Western Australia

Australian Journal of Experimental Agriculture ◽

10.1071/ea9930915 ◽

1993 ◽

Vol 33 (7) ◽

pp. 915 ◽

Cited By ~ 52

Author(s):

KHM Siddique ◽

GH Walton ◽

M Seymour

Keyword(s):

Seed Yield ◽

Western Australia ◽

Faba Bean ◽

Dry Matter ◽

Black Spot ◽

Field Pea ◽

Grain Legume ◽

Alkaline Soils ◽

Narrow Leaf ◽

Seed Yields

Field trials were conducted in 2 seasons at 13 sites on neutral to alkaline soils in Western Australia, to compare the growth and seed yield of 6 winter grain legume species: field pea (Pisum sativum L.), chickpea (Cicer arietinum L.), faba bean (Vicia faba L.), lentil (Lens culinaris Medik), narrow leaf lupin (Lupinus angustifolius L.), albus lupin (L. albus). In a dry year (1991), overall site mean seed yield was highest for field pea (1.35 t/ha), then faba bean (1.22 t/ha) and narrow leaf lupin (0.85 t/ha). Chickpea, lentil line ILL5728, and albus lupin produced an average seed yield of 0.64 t/ha. Rainfall in 1992 was above average and seed yields of all species except field pea were higher than in 1991. Heavy rainfall in winter and spring caused transient waterlogging at several sites, affecting growth and seed yield of most species. Faba bean responded positively to the increase in rainfall and produced exceptional seed yields of >4 t/ha at 3 sites. Mean seed yield was highest for faba bean, at 2.87 t/ha, then narrow leaf lupin (1.19 t/ha), chickpea (1.1 t/ha), and field pea (1.0 t/ha). Field pea performed poorly at several sites due to its susceptibility to transient waterlogging and black spot disease (caused by Mycosphaerella pinoides). Albus lupin and lentil line ILL5728 produced similar seed yields (0.78 t/ha). Lentil cvv. Laird (1991) and Kye (1992) had low seed yields due to poor adaptation. Seed yield differences between species at various locations were not simply related to any soil chemical parameters or to depth to clay. On a calcareous soil of pH(CaC12) 8 at Dongara, the growth of narrow leaf lupin was severely affected and the crop failed. Days to flowering varied between species; faba bean was earliest to flower (76 days), then field pea. Faba bean and field pea (particularly in 1991) generally produced the most dry matter, both early and at final harvest. The relationship between seed yield and rainfall was complicated by transient waterlogging and fungal disease (e.g. black spot in field pea) at many sites. Seed yield was significantly positively related to final dry matter production but not to harvest index.

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Growth and seed yield of vetches (Vicia spp.) in south-western Australia

Australian Journal of Experimental Agriculture ◽

10.1071/ea9960587 ◽

1996 ◽

Vol 36 (5) ◽

pp. 587 ◽

Cited By ~ 12

Author(s):

KHM Siddique ◽

SP Loss

Keyword(s):

Seed Yield ◽

Western Australia ◽

Dry Matter ◽

Rapid Development ◽

Farming Systems ◽

Grain Legumes ◽

Poor Growth ◽

Breeding Programs ◽

Seed Yields ◽

Western Australian

The growth and seed yield of 5 vetch (Vicia) cultivars representing Vicia sativa, V. benghalensis and V. villosa were compared at 8 sites over 2 years in south-western Australia. The vetches showed considerable potential as grain and forage legume crops in the low to medium rainfall areas of the Western Australian cereal belt. Cultivars of V. sativa showed the most potential in terms of dry matter and seed yield, and on average across sites and seasons both Languedoc and Blanchefleur produced over 2.5 t/ha of dry matter at flowering: Machine-harvested seed yields were over 1.6 t/ha. Cultivars of V. benghalensis and V. villosa produced considerably less dry matter at flowering and had lower harvest index (0.14-0.42) and seed yield < 4 t/ha) when compared with the V. sativa cultivars, possibly due to their poor growth rates and delayed phenology. Early Purple, an early flowering and maturing selection from the V. benghalensis cultivar Popany, showed improved adaptation and seed yield at many low rainfall sites. Nevertheless, Languedoc, Blanchefleur and Early Popany are all considered late flowering (up to 126 days) compared with grain legumes adapted to this environment, and further improvement in vetch species could be achieved by selecting for more rapid development. Both soft-seededness and non-shattering pods should also be high priorities for vetch selection and/or breeding programs. It is concluded that vetch species may have a role in farming systems in Western Australia for the production of fodder, hay, grain or green manure while providing the other rotational benefits of legumes on fine-textured neutral to alkaline and shallow duplex soils where narrow-leafed lupin is poorly adapted.

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Paclobutrazol Improves Sesame Yield by Increasing Dry Matter Accumulation and Reducing Seed Shattering Under Rainfed Conditions

International Journal of Plant Production ◽

10.1007/s42106-021-00132-w ◽

2021 ◽

Author(s):

Muhammad Zeeshan Mehmood ◽

Ghulam Qadir ◽

Obaid Afzal ◽

Atta Mohi Ud Din ◽

Muhammad Ali Raza ◽

...

Keyword(s):

Leaf Area ◽

Seed Production ◽

Seed Yield ◽

Dry Matter ◽

Biomass Accumulation ◽

Total Biomass ◽

Dry Matter Accumulation ◽

Seed Shattering ◽

Rainfed Conditions ◽

Leaf Greenness

AbstractSeveral biotic and abiotic stresses significantly decrease the biomass accumulation and seed yield of sesame crops under rainfed areas. However, plant growth regulators (such as Paclobutrazol) can improve the total dry matter and seed production of the sesame crop. The effects of the paclobutrazol application on dry matter accumulation and seed yield had not been studied before in sesame under rainfed conditions. Therefore, a two-year field study during 2018 and 2019 was conducted with key objectives to assess the impacts of paclobutrazol on leaf greenness, leaf area, total dry matter production and partitioning, seed shattering, and seed yield of sesame. Two sesame cultivars (TS-5 and TS-3) were treated with four paclobutrazol concentrations (P0 = Control, P1 = 100 mg L−1, P2 = 200 mg L−1, P3 = 300 mg L−1). The experiment was executed in RCBD-factorial design with three replications. Compared with P0, treatment P3 improved the leaf greenness of sesame by 17%, 38%, and 60% at 45, 85, and 125 days after sowing, respectively. However, P3 treatment decreased the leaf area of sesame by 14% and 20% at 45 and 85 days after sowing than P0, respectively. Compared with P0, treatment P3 increased the leaf area by 46% at 125 days after sowing. On average, treatment P3 also improved the total biomass production by 21% and partitioning in roots, stems, leaves, capsules, and seeds by 23%, 19%, 23%, 22%, and 40%, respectively, in the whole growing seasons as compared to P0. Moreover, under P3 treatment, sesame attained the highest seed yield and lowest seed shattering by 27% and 30%, respectively, compared to P0. This study indicated that by applying the paclobutrazol concentration at the rate of 300 mg L−1 in sesame, the leaf greenness, leaf areas, biomass accumulation, partitioning, seed yield, and shatter resistance could be improved. Thus, the optimum paclobutrazol level could enhance the dry matter accumulation and seed production capacity of sesame by decreasing shattering losses under rainfed conditions.

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High phosphorus concentrations in seed of wheat and annual medic are related to higher rates of dry matter production of seedlings and plants

Australian Journal of Experimental Agriculture ◽

10.1071/ea9880765 ◽

1988 ◽

Vol 28 (6) ◽

pp. 765 ◽

Cited By ~ 41

Author(s):

MDA Bolland ◽

MJ Baker

Keyword(s):

Triticum Aestivum ◽

Field Experiment ◽

Western Australia ◽

Dry Matter ◽

Field Experiments ◽

Medicago Polymorpha ◽

P Concentration ◽

Pot Experiments ◽

Matter Production ◽

Burr Medic

Seed of 2 cultivars of wheat (Triticum aestivum) and 1 burr medic (Medicago polymorpha) with increasing phosphorus (P) concentrations (wheat 1.4-3.7 g P/kg dry matter, medic 3.3-7.9 g P/kg dry matter) were collected from field experiments with variable levels of applied superphosphate (wheat 0- 577 kg P/ha, medic 0-364 kg P/ha) in south-western Australia. These seeds were used in further experiments to examine the effect of seed P concentration on the subsequent dry matter (DM) production of seedlings and plants in 3 glasshouse pot experiments and 1 field experiment. Seed of the same size (wheat, 35 mg/seed; medic, 3.6 mg/seed) but with increasing P concentration produced substantially higher DM yields in the absence or presence of freshly applied superphosphate P up to 28-35 days after sowing in the pot experiments and 67 days after sowing in the field experiment.

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