Potential for increasing early vigour and total biomass in spring wheat. I. Identification of genetic improvements

Increased early vigour and vegetative biomass at anthesis should lead to yield improvements in wheat. Fifteen introductions were compared with five standard cultivars in Western Australia at Wongan Hills in 1988, and Wongan Hills, Merredin and Esperance in 1989 to identify useful parents for their early vigour and biomass production. Two times of sowing were included at Wongan Hills in 1989. Dry matter production was measured at all sites except Esperance at the early vegetative stage (49 to 55 days after sowing), late vegetative stage (56 to 75 days after sowing), and at anthesis. Some introductions were more vigorous in the vegetative stages, and produced more biomass at anthesis than the standard cultivars. Experiments under irrigated, non-stress conditions showed these lines produced leaves and tillers more quickly than the standard cultivars. The full growth potential of these lines may not have been expressed fully due to environmental limitations. While variation for dry matter production existed within the standard cultivars, it was not adequate or consistent enough to be of value in breeding. Dry matter production at the vegetative and anthesis stages was correlated significantly with grain yield in 1989, but not in 1988. Broad sense heritabilities for dry matter production at the three stages were generally high, averaging 72, 73 and 69% for early vegetative, late vegetative and anthesis dry matter production respectively. The importance of assessing the value of early vigour and biomass in breeding populations is discussed.

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Potential for increasing early vigour and total biomass in spring wheat. II. Characteristics associated with early vigour

Australian Journal of Agricultural Research ◽

10.1071/ar9920541 ◽

1992 ◽

Vol 43 (3) ◽

pp. 541 ◽

Cited By ~ 42

Author(s):

KL Regan ◽

KHM Siddique ◽

NC Turner ◽

BR Whan

Keyword(s):

Dry Matter ◽

Genotypic Variation ◽

Growth Period ◽

Early Growth ◽

Dry Matter Production ◽

Total Biomass ◽

High Dry Matter ◽

Green Area ◽

Matter Production ◽

Early Vigour

Increased early growth and total dry matter production have been suggested as useful traits to improve yield in Mediterranean-type environments. In Part I, genotypic variation for early growth and total dry matter production was identified among cultivars and some introduced lines. In this part, characteristics associated with early vigour in five of these introduced lines and ten Australian cultivars were examined in a field study at Wongan Hills in Western Australia. Differences in dry matter production were observed at all sampling times during the season, with three of the introduced lines (CEP 8058, Kansu No. 32 and V979-28) having consistently higher dry matter production than the standard cultivars during the early growth period. Those genotypes with a higher dry matter production at 54 days after sowing had higher relative growth rates and green area indices than those with low dry matter production. Both genotypes with large leaves on few tillers and genotypes with small leaves on many tillers had higher green area indices and higher dry matter production. While high dry matter production was associated with a large degree of ground cover and high light interception, it was not associated with the earlier commencement of reproductive development. Incorporation of early vigour and high dry matter production into locally adapted cultivars is required to demonstrate its benefit in these environments.

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Impact of Reduced Rainfall on Above Ground Dry Matter Production of Semi-natural Grassland in South Gloucestershire, UK: A Rainfall Manipulation Study

Frontiers in Environmental Science ◽

10.3389/fenvs.2021.686668 ◽

2021 ◽

Vol 9 ◽

Author(s):

S. M. Ayling ◽

Jill Thompson ◽

A. Gray ◽

L. J. McEwen

Keyword(s):

United Kingdom ◽

Dry Matter ◽

Dry Matter Production ◽

Drought Risk ◽

Total Biomass ◽

The South ◽

The United Kingdom ◽

South West ◽

Matter Production ◽

Rainfall Reduction

In the United Kingdom, agricultural grasslands cover 40% of the land area, make up 89% of the total agricultural area and are an important land use for ecosystem services and food security. Climate change predictions suggest that the United Kingdom will experience more frequent and severe periods of drought that may impact these grasslands. As part of the Drought Risk and You (DRY) project, a field experiment in which rain shelters reduced precipitation reaching the vegetation by approximately 50%, was set up in the South West of England. The experiment ran for 3 years, from October 2015 to October 2018. The study was carried out at two locations in the catchment of the Bristol River Frome. Both sites were species-rich semi-natural pastures that had received no inputs of fertilizer or herbicide for many years. Automatic weather stations recorded environmental conditions, especially rainfall, within the experimental area. The existing agricultural management regimes were approximated by cutting the vegetation in the plots, by hand, at the appropriate times of year. The effect of rainfall reduction on plant growth was assessed by biomass sampling. At both sites, the rainfall reduction treatment had only small effects on total above ground dry matter production (biomass). These effects were much smaller than the year-to-year variation in total biomass. Our results suggested that well-established permanent pastures in the South West of England were able to tolerate a 3-year period of reduced water supply. The observed year-to-year variation in biomass demonstrated how important the timing of dry weather is for biomass production, and this will be reflected in effects on yield and quality of hay.

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Efficient Dry Matter Production at the Vegetative Stage because of Low Maintenance Respiration Rate among Rice Varieties.

Japanese Journal of Crop Science ◽

10.1626/jcs.71.110 ◽

2002 ◽

Vol 71 (1) ◽

pp. 110-115 ◽

Cited By ~ 4

Author(s):

Yoshihiko HIRAI ◽

Makoto TSUDA ◽

Atsushi ENAIDA

Keyword(s):

Respiration Rate ◽

Dry Matter ◽

Vegetative Stage ◽

Dry Matter Production ◽

Maintenance Respiration ◽

Rice Varieties ◽

Matter Production

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Apex and root temperature and the early growth of wheat

Australian Journal of Agricultural Research ◽

10.1071/ar9870231 ◽

1987 ◽

Vol 38 (2) ◽

pp. 231 ◽

Cited By ~ 6

Author(s):

AR Aston

Keyword(s):

Dry Matter ◽

Early Growth ◽

Growth Patterns ◽

Dry Matter Production ◽

Growth Stages ◽

Previous Night ◽

Matter Production ◽

Early Vigour ◽

Extension Zone ◽

Leaf Extension

Wheat was grown in temperature controlled water-baths in order to regulate the temperature of the roots, the growing apex and the zone of leaf extension. Twenty-two alternating day and night temperatures varying between 26 and 2�C were studied. All plants experienced the same aerial environment. Leaf extension rates were measured on 6 days throughout the early growth stages and dry matter production was determined after 39 days. Night leaf extension was found to be related not only to the temperature of the meristem and leaf extension zone during the night, but also to the temperature experienced during the preceding day. Leaf extension during the day was determined by daytime temperature, and also the temperature conditions of the previous night. These growth patterns were explained in terms of leaf sugar concentrations, which were measured at the end of the experiment. Dry matter production was found to be exponentially related to the time-corrected mean daily temperature of the apex, leaf extension zone and roots. These results confirm the suggestion that the improved early vigour of wheat sown by conventional cultivation practices with a minimum of surface residues compared to direct drilled wheat, could at least partially have been due to the different patterns in soil temperature.

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The impact of agronomic manipulation of early vigour in wheat on growth and yield in South Australia

Australian Journal of Agricultural Research ◽

10.1071/ar03170 ◽

2004 ◽

Vol 55 (6) ◽

pp. 645 ◽

Cited By ~ 10

Author(s):

D. H. G. Sloane ◽

G. S. Gill ◽

G. K. McDonald

Keyword(s):

Grain Yield ◽

Vegetative Growth ◽

Dry Matter ◽

Early Growth ◽

Grain Weight ◽

Dry Matter Production ◽

Matter Production ◽

Early Vigour ◽

Yield Responses ◽

The Impact

The initial growth of wheat crops can be manipulated either by agronomic means, such as by increasing inputs of seed and fertiliser, or by genetic improvement in early vigour. Cultivars of wheat with enhanced early vigour are still not commercially available and so a series of experiments was conducted to examine the impact of increasing initial dry matter production and leaf area index by increasing sowing and nitrogen (N) rates on grain yield. Increasing the sowing rate and amount of N fertiliser applied significantly increased early dry matter production and leaf area, with the largest responses occurring when sowing rate was increased. However, there was little effect on yield. The increases in dry matter production that occurred early in the season as a result of the additional inputs diminished as the season progressed. Yield responses to the additional inputs depended on the seasonal distribution of rainfall and in particular the rainfall received in August and September when grains per m2 were being determined. Consequently, yield responses were affected more by changes in grain per m2 than by changes in grain weight, and the benefits of the improvements in early vigour were only realised when moisture availability was high during the immediate pre-anthesis and early grain filling period of growth. High rainfall in August and September increased the responses in grains per m2 from increased sowing rate and N. When N was used to increase early growth, the response in grain weight was negatively correlated with increasing pre-anthesis rainfall, but there was no relationship with rainfall when sowing rate was used to increase early growth. This effect of N, in which responses in pre-anthesis growth were offset by reductions in grain weight, is consistent with the ‘haying-off’ effect that can occur with applications of N. The results showed that increasing early vigour by increased inputs of seed and N fertiliser produce variable responses in grain yield. While improvements in vegetative growth occurred, the realisation of these gains only happened when rainfall in August and September was adequate. Basing improvements in early vigour only on agronomic manipulation appears to be associated with a relatively high level of risk, as it is difficult to control the balance between vegetative growth and the availability of soil moisture. Alternatively, the data suggest that the levels of early vigour under current agronomic practices may be adequate (>50 g/m2 shoot DM at late tillering stage), and only marginal gains may be achieved by promoting early growth by additional inputs.

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