Comparison of Initial Growth Responses to Water Availability of Two Chinese Desert Dune Species and Nine Cultivated Species

Tobe, Kazuo

doi:10.1080/15324980802598581

Arid Land Research and Management

2009

DOI: 10.1080/15324980802598581

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Comparison of Initial Growth Responses to Water Availability of Two Chinese Desert Dune Species and Nine Cultivated Species

Kazuo Tobe¹

Abstract: Seed traits and germination responses to water availability can be related to seedling emergence and survival in sand and thus can affect the adaptability of species to desert dune environments. Water absorption by seeds, germination speed, responses of germination to water stress (imposed using polyethylene glycol-6000), and the effects of irrigation on seedling emergence and survival in sand were compared among two desert dune herbs from northeastern China (Astragalus adsurgens and Melilotus albus) and nine … Show more

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2012

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Development of an assay to evaluate differences in germination rate among chickpea genotypes under limited water content

Vessal¹,

Palta²,

Atkins³

et al. 2012

Functional Plant Biol.

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An assay system that provides rapid and reproducible germination under low soil water content (<10% water holding capacity (WHC)) was developed and used to compare how chickpea (Cicer arietinum L.) genotypes complete germination, without the technical difficulties of accurately controlling water levels. The system consisted of small plastic containers (50 mm × 50 mm × 60 mm) filled with river sand and tightly closed (but not sealed) to minimise water loss and maintain constant soil water content during germination. Seed size influenced germination performance at low WHC. Small seeds within a single genotype germinated successfully and entered into the early stages of seedling growth, but germination of large seeds was inhibited, failing to germinate at 5% WHC. Small seeds were more efficient in remobilising seed reserves to seedling tissues than larger seeds. Under optimal WHC, the germination rate and subsequent radicle growth was similar among genotypes but at low WHC, there was variation despite seeds being of comparable size and imbibing equally. This suggests that the physiological threshold of threshold water potential for initiation of germination reflects genotypic differences. The assay system provides a suitable experimental tool to examine gene expression in contrasting genotypes during germination and early stages of seedling growth with a view to identifying the genes involved in superior performance under water limited field conditions.

show abstract

Development of an assay to evaluate differences in germination rate among chickpea genotypes under limited water content

Vessal¹,

Palta²,

Atkins³

et al. 2012

Functional Plant Biol.

View full text Add to dashboard Cite

show abstract

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Comparison of Initial Growth Responses to Water Availability of Two Chinese Desert Dune Species and Nine Cultivated Species

Cited by 1 publication

References 26 publications

Development of an assay to evaluate differences in germination rate among chickpea genotypes under limited water content

Development of an assay to evaluate differences in germination rate among chickpea genotypes under limited water content

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