Seed size and adventitious (nodal) roots as factors influencing the tolerance of wheat to waterlogging

Singh, Deepak; Singh, V. P.

doi:10.1071/ar02174

Cited by 21 publications

(13 citation statements)

References 21 publications

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“…The result of our experiment support the aforesaid findings. Carbohydrate remaining after submergence will presumably be especially important in recovery growth after submergence (Singh and Singh, 2001;Ram et al, 2002;Das et al,2005).…”

Section: Total Sugar Content Of Leavesmentioning

confidence: 99%

Carbohydrate reserve and aerenchyma formation enhance submergence tolerance in rice

et al. 2016

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An attempt was made to evaluate the submergence tolerance in rice using four Aman rice varieties viz. FR13A (local flood resistant, check), BRRI dhan 51 (HYV flood tolerant, check), BR 5 (HYV, susceptible) and a local aromatic rice,Ukunimadhu (local susceptible). Twenty days old seedlings of the rice varieties raised in earthen pots were submerged under 90 cm water depth in a submergence tank for 12 days and data were recorded on plant height, tiller number, carbohydrate reserve and internal anatomical structure of roots of the submerged and control (ambient) plants. Under submergence treatment Ukunimadhu showed rapid stem elongation with taller plants than the HYVs which showed shorter plant height. Tillering pattern was almost similar both in submergence treated and control plants in all the varieties. Variation in carbohydrate reserve was negligible among the varieties at ambient condition but the submergence treatment brought significant variation in carbohydrate content in them. Submergence treated FR13A and BRRI dhan 51 had the highest sugar and starch conservation ability while BR 5 and Ukunimadhu had the lowest. The higher reserved carbohydrate in the tolerant varieties might assist them to regenerate their normal growth rapidly after desubmergence. The cellular morphology of root tissue showed that intensity of aerenchyma development in submergence treated FR13A and BRRI dhan 51 was more pronounced compared to the local aromatic rice Ukunimadhu and perhaps this cellular large aerenchymatous development might be associated with the submergence tolerance of FR13A and BRRI dhan 51 than the local variety, Ukunimadhu.Progressive Agriculture 27 (3): 256-264, 2016

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Section: Total Sugar Content Of Leavesmentioning

confidence: 99%

Carbohydrate reserve and aerenchyma formation enhance submergence tolerance in rice

et al. 2016

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“…Evidence on the duration of this "head start" advantage is not consistent, possibly because seldom has this been tested in stressful or competitive environments, and results from greenhouse and Weld studies diVer depending on the environment, timing of emergence, and nutrient availability (Stanton 1984;Yanful and Maun 1996;Sousa et al 2003). Many studies have focused on agronomic or weedy species grown in fertile soils and have found that large seeds result in greater grain yield (Martincic et al 1997;Stougaard and Xue 2004), changed protein composition (Triboi et al 2003), better early performance (Kristensen 2003), higher rates of germination (Martincic et al 1997), and greater adventitious root growth under water-logged conditions (Singh and Singh 2003).…”

Section: Introductionmentioning

confidence: 96%

Irrigation and fertilization effects on seed number, size, germination and seedling growth: implications for desert shrub establishment

Breen

Richards

2008

Oecologia

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Plants with limited resources adjust partitioning among growth, survival, and reproduction. We tested the effects of water and nutrient amendments on seed production, size, and quality in Sarcobatus vermiculatus (greasewood) to assess the magnitude and importance of changes in reproductive partitioning. In addition, we assessed interactions among the environment of seed-producing plants (adult plant scale), seed size, and seedling microenvironment (seedling scale) on successful seedling establishment. Interactions of these factors determine the scale of resource heterogeneity that affects seedling establishment in deserts. Both total number of seeds produced per plant and seed quality (weight and germination) increased significantly in the enriched treatment in a 3-year field experiment. Seedling length 3 days after germination and seed N concentration, other measures of seed quality, were higher for seed from both irrigated and enriched plants than for seed from control plants. Field S. vermiculatus seed production and quality can be substantially increased with irrigation and nutrient enrichment at the adult plant scale and this allows management of seed availability for restoration. However, based on a greenhouse study, seedling environment, not the environment of the seed-producing plant or seed size, was the most important factor affecting seedling germination, survival, and growth. Thus it appears that production of more seed may be more important than improved seed quality, because higher quality seed did not compensate for a low-resource seedling environment. For both natural establishment and restoration this suggests that heterogeneity at the scale of seedling microsites, perhaps combined with fertilization of adult shrubs (or multi-plant patches), would produce the greatest benefit for establishing seedlings in the field.

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“…Seed mass effects could appear in the field, however, and the results of this greenhouse experiment may not be applicable to field conditions. Seed mass is related to germination success, seedling growth, and/or survival in several plant species (e.g., Howe and Richter 1982;Stanton 1984;Kromer and Gross 1987;Armstrong and Westoby 1993;Pimienta-Barrios et al 2002;Carter et al 2003;Debain et al 2003;Singh and Singh 2003;Petit et al 2009), although positive carryover effects sometimes decrease with age (Lo´pez et al 2003). Crist and Friese (1993) found that small seeds suffered more from decomposition and pathogens than did large seeds, across species; Moles et al (2003) and Campbell and Rochefort (2003) also observed increased sensitivity of buried small seeds compared to large seeds across species, but Pringle et al (2007) found the reverse.…”

Section: Effect Of Mixed Pollen Load On the Two Cactus Speciesmentioning

confidence: 91%

Effects of mixed‐species pollen load on fruits, seeds, and seedlings of two sympatric columnar cactus species

Petit

2011

Ecological Research

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Two sympatric species of columnar cacti on Curac¸ao, Netherlands Antilles, share bat pollinators, overlap in flowering phenology, and are floral homologues. Leptonycteris curasoae curasoae and Glossophaga longirostris elongata (Chiroptera: Glossophaginae) visit flowers of Stenocereus (syn. Ritterocereus) griseus and Subpilocereus (syn. Cereus) repandus on the same nights; these visits may promote interference competition between cactus species. I studied the effect of heterospecific (mixed) pollen loads on fruit and seed set, fruit and seed size and mass, germinated seeds at 5 weeks, and seedling survival at 7 months in relation to hand pollination with intraspecific pollen and natural pollination. Hand pollination seemed to limit pollen loads available for pollination. Under these conditions, natural pollination tended to produce the most fruits and seeds, and the largest fruits (but lightest seeds); mixed pollination was the least effective treatment (fruit set was significantly greater for St. griseus in natural than mixed pollination; fruit volume was greater in natural than mixed pollination for S. repandus, and seed number and fruit mass were larger in intraspecific than in mixed pollination). Aspects of natural pollination, possibly repeated visits, compensated for the negative impact of interspecific pollen loads under pollen limitation, with positive impacts on the carrying capacity of cacti for frugivores. Seed mass from natural pollination was negatively correlated with seed number only for St. griseus. Germination success was not correlated with seed mass, but seedling survival at 7 months was for S. repandus. The two species do not seem to compete through pollen interference when pollinator visits are relatively frequent.

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Seed size and adventitious (nodal) roots as factors influencing the tolerance of wheat to waterlogging

Cited by 21 publications

References 21 publications

Carbohydrate reserve and aerenchyma formation enhance submergence tolerance in rice

Carbohydrate reserve and aerenchyma formation enhance submergence tolerance in rice

Irrigation and fertilization effects on seed number, size, germination and seedling growth: implications for desert shrub establishment

Effects of mixed‐species pollen load on fruits, seeds, and seedlings of two sympatric columnar cactus species

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