Determination of Cardinal Temperatures in the Seeds of Henbane, Aconite and Hemp

Document Type : Research Article

Authors

1 Ferdowsi University of Mashhad

2 Research and Education Agriculture Organization

Abstract

In order to study the cardinal temperatures of three weeds henbane (Hyoscyamus niger L), Aconite (Aconitum napellusl L.) and Hemp (Cannabis sativa L.) at seven levels of temperatures (5, 10, 15, 20, 25, 30 and 35 °C), an experiment was carried out in completely randomized design with 3 replications and factorial experimental arrangement in Weeds Research Laboratory, Faculty of Agriculture, Ferdowsi University of Mashhad in 2012. Results showed that the seeds of henbane, Aconite and Hemp had the maximum germination percentage at 20 C. The response of these weeds to temperatures higher than 20 C was different. Hyoscyamus plant had lower germination percentage at 10 C in compare with two others plants. The highest seedling and rootlet length in Hemp, henbane and Aconite were observed at 20 and 15 C, 30 and 20 C, 20 and 25 C respectively. The cardinal temperatures including base temperature (Tb), optimum temperature (To) and ceiling temperature (Tc) for henbane was 0.66, 31 and 41 and for Aconite 2.84, 11.48 and 41.05 and for Hemp 2.6, 26.8 and 42.8 C, respectively. On the whole, results of this experiment showed that there is a wide range of temperatures on germination and emergence of weed for their emergence and establishment.

Keywords


- نجفی ف.، کوچکی ع.ر.، رضوانی مقدم پ. و راستگو م. 1386 . بررسی خصوصیات جوانه‌زنی گیاه دارویی بومی و در حال انقراض پونه سای بینالودی (Nepeta binaludensis jamzad). مجله پژوهشهای زراعی ایران. جلد 4. ص. 392. 385.
2- باقری ن. و غدیری ح. 1373. خلاصه مقالات سومین کنگره علوم زراعت و اصلاح نباتات ایران.
3- تبریزی ل.، کوچکی ع. ر. و نصیری محلاتی م. 1383 . ارزیابی درجه حرارت‌های کاردینال جوانه زنی دو گونه اسفرزه. مجله پژوهش‌های زراعی ایران، 2(2): 143-150.
4- کوچکی ع.ر. و مومن شاهرودی م. 1375 . اثر پتانسیل آب و اندازه بذر بر خصوصیات جوانه‌زنی بذر نخود (Cicer aritinum). مجله بیابان، ج 1. 53-65.
5- نجفی ف. 1380. تأثیر رژیم‌های مختلف آبیاری و تراکم بر کیفیت و کمیت گیاه دارویی اسفرزه .(Plantago ovata Forsk).). پایان نامه کارشناسی ارشد زراعت، دانشکده کشاورزی، دانشگاه فردوسی مشهد.
6 -توکلی صابری م.ر. و صداقت م.ر. 1368. امور فنی و هنری: سازمان پژوهش
7- Adam N.R., Dierig T.A., Coffelt., and Wintermeyer M.J. 2007. Cardinal temperatures for germination and early growth of two Lesquerella species. Industerial Crops and Products, 25:24-33.
8- Aflakpui G.K.S., Gregory P.J., and Froud-williams R.J. 1998. Effect of temperature on seed germination rate of Striga hermonthica (Del.) Benth. Crop Protection, 17:129-133.
9- Alm D.M., Stoller E.W., and Wax L.M. 1993. An index model for predicting seed germination and emergence rates. Weed Technology, 7:560-569.
10- Alvarado V., and Bradford K.J. 2002. A hydrothermal time model explains the cardinal temperatures for seed germination. Plant, Cell and Environment, 25:1061-1069.
11- Bannayan M., Nadjafi F., Rastgoo M., and Tabrizi L. 2006. Germination properties of some wild medicinal plants from Iran. Journal of Seed Technology, 28:80-86.
12- Bewley J.D., and Black M. 1994. Seeds: Physiology of development and germination, 2nd eds. Plenum Press, New York, USA.
13- Bradford K.J. 2002. Application of hydrothermal time to quantifying and modeling seed germination and dormancy. Weed Science, 50:248-260.
14- Cadho K.L., and Rajender G. 1995. Advances in Horticulture Medicinal and Aromatic Plants. Vol. 11.Maldorta. Publication. New Delhi.
15- Dinda K., and Craker L.E. 1998. Growers Guide to Medicinal Plants. HSMP Press. Amherst, MA.
16- Evers G.W. 1991. Germination response of subterranean, berseem and rose clovers to alternating temperatures. Agronomy Journal, 83:1000-1004.
17- Iannucci A., Fonzo N.D., and Martiniello P. 2000. Temperature requirements for seed germination in four annual clovers grown under two irrigation treatments. Seed Science and Technology, 28:59-66.
18- Jami Al-Ahmadi M., and Kafi M. 2007. Cardinal temperatures for germination of Kochia scoparia L). Journal of Arid Environments, 68:308-314.
19- Jordan G.L., and Haferkamp M.R. 1989. Temperature responses and calculated heat units for germination of several range grasses and shrubs. Journal of Range Management, 42:41-45.
20- Kamkar B., Koocheki A.R., Nassiri Mahallati M., and Rezvani Moghaddam P. 2006. Cardinal temperatures for germination in three millet species (Panicum miliaceum, Pennisetum glaucum and Setaria italica). Asian Journal of Plant Sciences, 5:316-319.
21- Kebreab E., and Murdoch A.J. 1999. A model of the effects of a wide range of constant and alternating temperatures on seed germination of four Orobanche species. Annals of Botany, 84:549-557.
22- Keller M., and Kollmann J. 1999. Effects of seed provenance on germination of herbs for agricultural compensation sites. Agriculture, Ecosystem and Environment, 72:87-99.
23- Leblanc M.L. 2003.The use of thermal time to model common lambsquarters (Chenopodium album) seedling emergence in corn. Weed Science, 51:718-724.
24- Leblanc M.L. 1998. Facteurs impliques dans la levee des mauuvaises herbes au champ. Phytoprotetion, 79:111-127.
25- Ovell S., Ellis R.H., Roberts E.H., and Summerfield R.J. 1986. The influence of temperature on seed germination rate in grain legumes. Journal Experimant Botany, 37:705-715.
26- Ramin A.A. 1997. The influence of temperature on germination of taree Irani (Allium ampeloprasum L.spp. iranicum W.). Seed Science and Technology, 25:419-426.
27- Roman E.S., Thomas A.G., Murphy S.D., and Swanton C.G. 1999. Modeling Germination and seedling elongation of common lambsquaters (Chenopodium album).Weed Science, 47:149-155.
28- Suzuki H., and Khan A.A. 2000. Effective temperature and duration for seed humidification in snap bean (Phaseolus vulgaris L.). Seed Science and Technology, 28:381-389.
29- Vleeshouwers L. 1997. Modeling weed emergence patterns. PhD. Dissettation. Wageningen Agricultural University,Wageningen,The Netherlands. 165 p.
30- Wiese A.M., and Binning L.K. 1987. Calculating the threshold temperature of development for weeds.Weed Science, 35:177-179.
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