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Seed Germination Ecology of Soldier Thistle (Picnomon acarna): An Invasive Weed of Rainfed Crops in Iran

Published online by Cambridge University Press:  10 January 2019

Iraj Nosratti ,
Sajad Almaleki  and
Bhagirath S. Chauhan
Iraj Nosratti*
Affiliation:
Associate Professor, Department of Agronomy and Plant Breeding, Razi University, Kermanshah, Iran
Sajad Almaleki
Affiliation:
MSc Student, Department of Agronomy and Plant Breeding, Razi University, Kermanshah, Iran
Bhagirath S. Chauhan
Affiliation:
Associate Professor, Centre for Plant Science, Queensland Alliance for Agriculture and Food Innovation (QAAFI), University of Queensland, Gatton, QLD, Australia
*
Author for correspondence: Iraj Nosratti, Department of Agronomy and Plant Breeding, Razi University, Kermanshah, Iran. (Email: Irajnosratti@gmail.com)
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Abstract

Soldier thistle [Picnomon acarna (L.) Cass.] is widely distributed throughout rainfed fields across western Iran, where it decreases crop yields and interferes with harvest operations. This study was conducted to determine the influence of different factors on seed germination and seedling emergence of P. acarna. Freshly harvested seeds were dormant and required an after-ripening period for breaking dormancy. Seed germination was greatly promoted by light. Germination occurred over a wide spectrum of constant and fluctuating temperature regimes, ranging from 5 to 35 C, with highest germination at constant (74%) and fluctuating (94%) temperatures of 20 and 20/10 C. Seed germination of P. acarna was tolerant to osmotic potential, while salt stress significantly inhibited its germination percentage. pH was not an inhibiting factor for germination of P. acarna seeds. Seedling emergence decreased exponentially with an increase in seed burial depth in the soil; at soil burial depths of 4 cm or greater, no seedlings were able to reach the soil surface. The results suggest that significant seed germination of P. acarna in rainfed fields is possible, and the weed has great potential to spread throughout rainfed systems in western Iran. Based on these results, effective control of P. acarna can be achieved by applying interrow cultivation in row crops and deep tillage at seedbed preparation.

Keywords

Carlene Chase, University of FloridaAfter-ripeningdormancyosmotic potentialsalt stresssoil depth
Type
Research Article
Information
Weed Science , Volume 67 , Issue 2 , March 2019 , pp. 261 - 266
Copyright
© Weed Science Society of America, 2019 

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References

Ahmadi, K, Gholizadeh, H, Badzadh, HR, Hatami, F, Fazli, M, Hoseinpour, R, Kazemian, A Rafee, M (2016) Agricultural Statistics: Field Crops. Tehran: Iranian Ministry of Jehade-Kashavarzi Google Scholar
Assadi, M, Ramak Maassoumi, AA Khatamsaz, M (1989) Flora of Iran. Tehran: Research Institute of Forests & Rangelands Google Scholar
Atia, A, Smaoui, A, Barhoumi, Z, Abdelly, C Debez, A (2011) Differential response to salinity and water deficit stress in Polypogon monspeliensis (L.) Desf. provenances during germination. Plant Biol 13:541545 Google Scholar
Baskin, J Baskin, CC (1987) Temperature requirements for after‐ripening in buried seeds of four summer annual weeds. Weed Res 27:385389 Google Scholar
Baskin, JM Baskin, CC (2004) A classification system for seed dormancy. Seed Sci Res 14:116 Google Scholar
Batlla, D Benech‐Arnold, RL (2014)Weed seed germination and the light environment: implications for weed management. Weed Biol Manag 14:7787 Google Scholar
Benech-Arnold, R, Sanchez, R, Forcella, F, Kruk, B Ghersa, CM (2000) Environmental control of dormancy in weed seed banks in soil. Field Crops Res 67:105122 Google Scholar
Benvenuti, S, Macchia, M Miele, S (2001) Quantitative analysis of emergence of seedlings from buried weed seeds with increasing soil depth. Weed Sci 49:528535 Google Scholar
Bouwmeester, H Karssen, C (1989) Environmental factors influencing the expression of dormancy patterns in weed seeds. Ann Bot 63:113120 Google Scholar
Boyd, N Hughes, A (2011) Germination and emergence characteristics of spreading dogbane (Apocynum androsaemifolium). Weed Sci 59:533537 Google Scholar
Chachalis, D Reddy, KN (2000) Factors affecting Campsis radicans seed germination and seedling emergence. Weed Sci 48:212216 Google Scholar
Chauhan, BS, Gill, G Preston, C (2006) Factors affecting turnipweed (Rapistrum rugosum) seed germination in southern Australia. Weed Sci 54:10321036 Google Scholar
Chauhan, BS Johnson, DE (2008a) Germination ecology of Chinese sprangletop (Leptochloa chinensis) in the Philippines. Weed Sci 56:820825 Google Scholar
Chauhan, BS Johnson, DE (2008b) Influence of environmental factors on seed germination and seedling emergence of eclipta (Eclipta prostrata) in a tropical environment. Weed Sci 56:383388 Google Scholar
Chauhan, BS Johnson, DE (2008c) Seed germination and seedling emergence of giant sensitiveplant (Mimosa Invisa). Weed Sci 56:244248 Google Scholar
Chauhan, BS Johnson, DE (2009) Seed germination ecology of junglerice (Echinochloa colona): a major weed of rice. Weed Sci 57:235240 Google Scholar
Christensen, M, Meyer, SE Allen, PS (1996) A hydrothermal time model of seed after-ripening in Bromus tectorum L. Seed Sci Res 6:155164 Google Scholar
Cristaudo, A, Gresta, F, Luciani, F Restuccia, A (2007) Effects of after‐harvest period and environmental factors on seed dormancy of Amaranthus species. Weed Res 47:327334 Google Scholar
Ebrahimi, E Eslami, S (2012) Effect of environmental factors on seed germination and seedling emergence of invasive Ceratocarpus arenarius . Weed Res 52:5059 Google Scholar
Finch‐Savage, WE Leubner‐Metzger, G (2006) Seed dormancy and the control of germination. New Phytol 171:501523 Google Scholar
Gallagher, RS Cardina, J (1998) The effect of light environment during tillage on the recruitment of various summer annuals. Weed Sci 46:214216 Google Scholar
Górski, T, Górska, K Nowicki, J (1977) Germination of seeds of various herbaceous species under leaf canopy. Flora 166:249259 Google Scholar
Hemmat, A Eskandari, I (2004) Tillage system effects upon productivity of a dryland winter wheat–chickpea rotation in the northwest region of Iran. Soil Till Res 78:6981 Google Scholar
Hemmat, A Eskandari, I (2006) Dryland winter wheat response to conservation tillage in a continuous cropping system in northwestern Iran. Soil Till Res 86:99109 Google Scholar
Honarmand, SJ, Nosratti, I, Nazari, K Heidari, H (2016) Factors affecting the seed germination and seedling emergence of muskweed (Myagrum perfoliatum). Weed Biol Manag 16:186193 Google Scholar
Jalali, M (2005) Nitrates leaching from agricultural land in Hamadan, western Iran. Agric Ecosyst Environ 110:210218 Google Scholar
Jalali, M Khanlari, Z (2008) Environmental contamination of Zn, Cd, Ni, Cu, and Pb from industrial areas in Hamadan Province, western Iran. Environ Geo 55:15371543 Google Scholar
KMO [Kermanshah Meteorological Organization] (2017) Meteorological data. http://www.kermanshahmet.ir. Accessed: December 21, 2017Google Scholar
Koger, CH, Reddy, KN Poston, DH (2004) Factors affecting seed germination, seedling emergence, and survival of texasweed (Caperonia palustris). Weed Sci 52:989995 Google Scholar
Michel, B (1983) Evaluation of the water potentials of solutions of polyethylene glycol 8000 both in the absence and presence of other solutes. Plant Physiol 72:6670 Google Scholar
Mirdavoodi, H, Mohadjer, M, Amiri, G Etemad, V (2013) Disturbance effects on plant diversity and invasive species in western oak communities of Iran (case study: Dalab Forest, Ilam). Iranian J Forest Poplar Res 21:1520 Google Scholar
Mulligan, GA Bailey, LG (1975) The biology of Canadian weeds, 8: Sinapis arvensis L. Can J Plant Sci 55:171183 Google Scholar
Nosratti, I, Abbasi, R, Bagheri, A Bromandan, P (2017a) Seed germination and seedling emergence of Iberian starthistle (Centaurea iberica). Weed Biol Manag 17:144149 Google Scholar
Nosratti, I, Heidari, H, Muhammadi, G Saeidi, M (2016) Germination and emergence characteristics of annual ground cherry (Physalis divaricata). Jordan J Biol Sci 9:1924 Google Scholar
Nosratti, I, Sabeti, P, Chaghamirzaee, G Heidari, H (2017b) Weed problems, challenges, and opportunities in Iran. Crop Prot 111, 10.1016/j.cropro.2017.10.007 Google Scholar
Parsons, WT Cuthbertson, EG (2001) Noxious Weeds of Australia. Collingwood, Australia: CSIRO Publishing Google Scholar
Probert, RJ (2000) The role of temperature in the regulation of seed dormancy and germination. Seeds: the ecology of regeneration in plant communities 2:261292 Google Scholar
Roy, KN Lambert, BM (1997) Fluctuating temperature and light influence seed germination of goosegrass (Eleusine indica). Weed Sci 45:426429 Google Scholar
Schutte, BJ, Tomasek, BJ, Davis, AS, Andersson, L, Benoit, DL, Cirujeda, A, Dekker, J, Forcella, F, Gonzalez-Andujar, JL, Graziani, F, Murdoch, AJ, Neve, P, Rasmussen, IA, Sera, B, Salonen, J, Tei, F, Tørresen, KS Urbano, JM (2014) An investigation to enhance understanding of the stimulation of weed seedling emergence by soil disturbance. Weed Res 54:112 Google Scholar
Stanton, R, Wu, H Lemerle, D (2012) Factors affecting silverleaf nightshade (Solanum elaeagnifolium) germination. Weed Sci 60:4247 Google Scholar
Taylorson, R Brown, M (1977) Accelerated after-ripening for overcoming seed dormancy in grass weeds. Weed Sci 25:473476 Google Scholar
Yenish, JP, Doll, JD Buhler, DD (1992) Effects of tillage on vertical distribution and viability of weed seed in soil. Weed Sci 40:429433 Google Scholar
Wilson, BJ, Wright, KJ, Brain, P, Clements, M Stephens, E (1995) Predicting the competitive effects of weed and crop density on weed biomass, weed seed production and crop yield in wheat. Weed Res 35:265278 Google Scholar
Wu, X, Li, J, Xu, H Dong, L (2015) Factors affecting seed germination and seedling emergence of Asia minor bluegrass (Polypogon fugax). Weed Sci 63:440447 Google Scholar
Zand, E, Baghestani, M, Nezamabadi, N, Minbashi, MM Hadizadeh, M (2009) A review on the last list of herbicides and the most important weeds of Iran. Weed Res J 1:8399 Google Scholar