Abstract
Two experiments are discussed. In the first, rates of root elongation during the first four days of growth at 25 °C were studied in Chamaecrista rotundifolia (34 accessions), C. nictitans (2 accessions), C. pilosa (1 accession) and C. serpens (3 accessions). In the second, a comparison was made of germination characteristics of 14 accessions of C. rotundifolia and one of C. pilosa at nine constant temperatures (11–27 °C). Entries included accessions from a wide latitudinal range. There were statistically significant differences in root length on all four days of measurement. No accession had significantly longer roots than the commercial cultivar cv. Wynn on day 1, but over the following three days, 4, 10 and 13 accessions had significantly longer roots, respectively. Root length on day 4 was positively correlated with latitude of origin. In the second experiment, maximum germination occurred at 25.5–27 °C, with progressively lower percentages at lower temperatures. There were highly significant differences between accessions at each temperature (P<0.001), and a highly significant accession × temperature interaction. No accession had a higher germination percentage than cv. Wynn at any temperature. Percentage mortality differed significantly (P<0.05) at all temperatures except 27 °C. Mortality at low temperature was negatively correlated with latitude of provenance. Increased temperatures up to 22.5 °C reduced the time taken to reach 50% of maximum germination (T50), and thereafter it was reasonably constant. With one exception (22.5 °C), no accession germinated significantly more quickly than cv. Wynn, and at 13 °C cv. Wynn germinated significantly more rapidly than all other entries. Over all temperatures, there was a significant negative correlation between days to 50% germination and latitude of provenance. Estimated base temperature for germination (T b ) ranged from 10.6 °C to 13.6 °C. T b was positively correlated with latitude of provenance. It is argued that accessions from higher latitudes have developed mechanisms for survival of soft seed at low temperatures, low base germination temperature, germination rates and root elongation rates that adapt them to an environment with summer-dominant rainfall and winters which are too cool to support growth.
This is a preview of subscription content, access via your institution.
References
Al-Helal, A.A., M.M. Al-Farraj, R.A. El-Desoki & I. Al-Habashi, 1989. Germination response of Cassia senna L. seeds to sodium salts and temperature. J. Univ. Kuwait (Sci.) 16: 281–286.
Bhattacharya, A. & P.K. Saha, 1997. Germination behaviour of two morphologically different types of seed of Cassia tora at different temperatures. Weed Res. 37: 87–92.
Clements, R.J., 1996. Pastures for prosperity. 3. The future for new tropical pasture plants. Tropical Grasslands 30: 31–46.
Datta, S.C. & R. Basu, 1982. Seed germination in Cassia sophera. Acta Agronomica Academiae Scientiarum Hungaricae 31: 332–343.
Fleming, B.A., 1995. The Effect of the Drying Front on the Survival and Root Expansion of Germinating Legume Pasture Seedlings. M.Sc. Thesis, University of Queensland.
Horne, P.M., D.A. MacLeod & J.M. Scott (Eds.) 1991. Forages on Red Soils in China. ACIAR, Canberra, 141 pp.
Jones, R.M., G.A. Bunch & C.K. McDonald (1998) Ecological and agronomic studies on Chamaecrista rotundifolia cv. Wynn related to modelling of persistence. Tropical Grasslands 32: 153–165.
Leng, S., X. Lu, Y. Li & Y. Yin, 1991. Agroclimatic resources and forage adaptability in the red soils region of south central China. In: Horne, P.M., D.A. MacLeod & J.M. Scott (Eds.), Forages on Red Soils in China, pp. 15–21. ACIAR, Canberra.
Oram, R.N. (Ed.), 1990. Register of Australian Herbage Plant Cultivars. CSIRO, Melbourne.
Pengelly, B.C. & J.B. Hacker, 1997. Variation in radicle elongation rate in Macroptilium atropurpureum. Proceedings of the XVIII International Grassland Congress 1-27-1-28. The Organizing Committee, Calgary, Canada.
Pengelly, B.C., B.L. Maass, B.D. Thomas & J.B. Hacker, 1997. Origin of the world's collection of the tropical legume Chamaecrista rotundifolia. Proceedings of the XVIII International Grassland Congress 1-25-1-26. The Organizing Committee, Calgary, Canada.
Zhang, J., S. Wen, P. Horne, J. Scott & G. Blair, 1991. Introduction and establishment of forages on the red soils of southern China. In: Horne, P.M., D.A. MacLeod & J.M. Scott (Eds.), Forages on Red Soils in China, pp. 125–128. ACIAR, Canberra.
Zhang, J. & M. Xu, 1998. A promising legume pasture on acid red soils-Wynn round leafed Chamaecrista. In: Xu, M., J. Zhang & S. Wen (Eds.), Forage Cultivation and Utilization in Hilly Red Soil Regions of Southern China, pp. 75–78. Chinese Academy of Agricultural Science, Beijing.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Minggang, X., McDonald, C., Liu, C. et al. Variation in temperature requirements for germination and early seedling root development in Chamaecrista rotundifolia and three allied species. Genetic Resources and Crop Evolution 47, 25–34 (2000). https://doi.org/10.1023/A:1008775221573
Issue Date:
DOI: https://doi.org/10.1023/A:1008775221573
- Chamaecrista
- genetic adaptation
- seed germination
- seedling root development
- tropical forage legumes