Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-27T21:31:55.087Z Has data issue: false hasContentIssue false

Germination of Weedy Rice in Response to Field Conditions during Winter

Published online by Cambridge University Press:  20 January 2017

Silvia Fogliatto*
Affiliation:
Dipartimento di Agronomia, Selvicoltura e Gestione del Territorio, Università di Torino via Leonardo da Vinci 44, 10095 Grugliasco (TO), Italy
Francesco Vidotto
Affiliation:
Dipartimento di Agronomia, Selvicoltura e Gestione del Territorio, Università di Torino via Leonardo da Vinci 44, 10095 Grugliasco (TO), Italy
Aldo Ferrero
Affiliation:
Dipartimento di Agronomia, Selvicoltura e Gestione del Territorio, Università di Torino via Leonardo da Vinci 44, 10095 Grugliasco (TO), Italy
*
Corresponding author's E-mail: [email protected].

Abstract

Weedy rice is a problematic weed that infests paddy fields worldwide. Differing populations, with varying physiological and morphological traits, characterize this weed. In particular, seed dormancy makes its control difficult. The objective of this study was to evaluate the germination behavior of five Italian weedy rice populations (two awnless, two awned, and one mucronate) after exposure of seeds to different field storage conditions (flooding, burial, and dry soil surface) during winter in two sites (Grugliasco and Vercelli, Italy). Seed samples were taken from each population, storage condition, and site, every 15 d for petri dish germinability testing. The two sites displayed slightly different germination patterns, which were probably due to the differing climatic conditions. One of the awned populations showed the highest (always exceeding 80%) and fastest germination percentage in all field conditions and sites, compared with the other four populations. Although flooding promoted germination in one awnless population, it delayed germination in two others (one awned and one awnless), attaining only 20% germination after more than 100 d. In all populations, burial delayed germination, whereas seed placement on the dry soil surface enhanced it. Our study indicated that autumn tillage that promotes weedy rice seed burial should be discouraged; spring tillage that exposes seeds to the soil surface and cause their depletion should be encouraged. The tested technique of winter flooding can also improve weedy rice control, despite its varying efficacy among populations. Cycles of flooding and drying followed by spring tillage might improve weedy rice seed control.

Oryza sativa es una maleza problemática que infesta los arrozales en todo el mundo. Esta maleza se caracteriza por tener distintas poblaciones con rasgos fisiológicos y morfológicos variables. En particular, la dormancia de la semilla dificulta su control. El objetivo de este estudio fue evaluar el comportamiento durante la germinación de cinco poblaciones de esta maleza en Italia (dos sin arista, dos con arista y una mucronada), después de exponer las semillas a diferentes condiciones de almacenamiento en el campo (inundación, entierro y superficie seca del suelo) durante el invierno en dos sitios (Grugliasco y Vercelli). Cada 15 días se tomaron muestras de semilla de cada población, cada condición de almacenamiento y cada sitio, para poder determinar en cajas de Petri su germinación. Los dos sitios mostraron una ligera diferencia en los patrones de germinación, lo cual probablemente se debió a las diferentes condiciones climáticas. Una de las poblaciones con arista, mostró el porcentaje de germinación más alto (siempre mayor de 80%) y de mayor rapidez en todas las condiciones de campo y sitios, en comparación con las otras cuatro. Mientras que la inundación del campo fomentó la germinación en una población sin arista, ésta retrasó la germinación en otras dos (una con arista y otra sin arista), alcanzando solamente el 20% de germinación después de más de 100 días. En todas las poblaciones, el enterrar la semilla retrasó la germinación, mientras que la colocación de la semilla en la superficie del suelo, la aumentó. Nuestro estudio indica que no son recomendables las labranzas de otoño que provocan el entierro de la semilla de O. sativa. Las labranzas de primavera que exponen las semillas de maleza a la superficie del suelo y causan su agotamiento, deben ser alentadas. La técnica probada de las inundaciones de invierno puede también mejorar el control de O. sativa a pesar de su variable eficacia entre poblaciones. Ciclos de inundación y secado seguidos por labranza en primavera podrían mejorar el control de la semilla de O. sativa.

Type
Weed Biology and Competition
Copyright
Copyright © Weed Science Society of America 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

Baskin, C. C. and Baskin, J. M. 1998. Seeds: Ecology, biogeography, and evolution of dormancy and germination. San Diego: Academic. 666 p.Google Scholar
Bird, J. A., Eagle, A. J., Horwath, W. R., Hair, M. W., Zilbert, E. E., and van Kessel, C. 2002. Long term studies find benefits, challenges in alternative rice straw management. Calif. Agric 56:6975.Google Scholar
Burgos, N. R., Norman, R. J., Gealy, D. R., and Black, H. 2006. Competitive N uptake between rice and weedy rice. Field Crop Res 99:96105.Google Scholar
Chiapusio, G., Sanchez, A. M., Reigosa, M. J., Gonzales, L., and Pellisier, F. 1997. Do germination indices adequately reflect allelochemical effects on the germination process? J. Chem Ecol 23:24452453.Google Scholar
Chow, G. C. 1960. Tests of equality between sets of coefficients in two linear regressions. Econometrica 28:591605.Google Scholar
Chung, N. J. and Paek, N. C. 2003. Photoblastism and ecophysiology of seed germination in weedy rice. Agron. J. 95:184190.Google Scholar
Cohn, M. A. and Hughes, J. A. 1981. Seed dormancy in red rice (Oryza sativa), I: effect of temperature on dry-afterripening. Weed Sci 29:402404.Google Scholar
Craigmiles, J. P. 1978. Introduction. Pages 56. In Eastin, E. F. ed. Red Rice Research and Control. College Station, TX: Texas Agricultural Experimental Station Bulletin.Google Scholar
Davis, A. S., Cardina, J., Forcella, F., et al. 2005. Environmental factors affecting seed persistence of annual weeds across the U.S. corn belt. Weed Sci 53:860868.Google Scholar
Dawson, J. H. and Bruns, V. F. 1975. Longevity of barnyardgrass, green foxtail, and yellow foxtail seeds in soil. Weed Sci 23:437440.Google Scholar
Delouche, J. C., Burgos, N. R., Gealy, D. R., Zorilla de San Martín, G., Labrada, R., Laringe, M., and Rosell, C. 2007. Weedy Rices—Origin, Biology, Ecology and Control. Rome: Food and Agriculture Organization Plant Production and Protection Paper 188. 144 p.Google Scholar
Donohue, K. 2005. Seeds and seasons: interpreting germination timing in the field. Seed Sci. Res 15:175187.Google Scholar
Dyer, W. E. 1995. Exploiting weed seed dormancy and germination requirements through agronomic practices. Weed Sci 43:498503.Google Scholar
Ferrero, A. 2003. Weedy rice, biological features and control. Pages 89107. In Labrada, R. ed. Weed Management for Developing Countries. Rome: Food and Agriculture Organization Plant Production and Protection Paper 120.Google Scholar
Ferrero, A. and Vidotto, F. 1998. Germinability after flowering, shattering ability and longevity of red rice seeds. Pages. 205211. in. Proceeding of the 6th European Weed Research Society Mediterranean Symposium, Montpellier, France. Doorwerth, The Netherlands: European Weed Science Society.Google Scholar
Ferrero, A., Vidotto, F., Balsari, P., and Airoldi, G. 1999. Mechanical and chemical control of red rice (Oryza sativa L. var. sylvatica) in rice (Oryza sativa L.) pre-planting. Crop Prot 18:245251.Google Scholar
Fisher, A. J. and Ramirez, A. 1993. Red rice (Oryza sativa): competition studies for management decisions. Int. J. Pest Manag 39:133138.Google Scholar
Fogliatto, S., Vidotto, F., and Ferrero, A. 2010. Effects of winter flooding on weedy rice (Oryza sativa L.). Crop Prot 29:12321240.Google Scholar
Forcella, F., Wilson, R. J., Renner, K. A., Dekker, J., Harvey, R. G., Alm, D. A., Buhler, D. D., and Cardina, J. 1992. Weed seedbanks of the U.S. corn belt: magnitude, variation, emergence, and application. Weed Sci 40:636644.Google Scholar
Gu, X. Y., Kianian, S. F., and Foley, M. E. 2005. Seed dormancy imposed by covering tissues interrelates to shattering and seed morphological characteristics in weedy rice. Crop Sci 45:948955.Google Scholar
Gu, X. Y., Kianian, S. F., and Foley, M. E. 2006. Dormancy genes from weedy rice respond divergently to seed development environments. Genetics 172:11991211.Google Scholar
[ISTA] International Seed Testing Association 2009. International Rules for Seed Testing. 2009 ed. Bassersdorf, Switzerland: ISTA. Pp. 218.Google Scholar
Kwon, S. L., Smith, R. J. Jr., and Talbert, R. E. 1991a. Interference and duration of red rice (Oryza sativa L.) in rice (Oryza sativa). Weed Sci 39:363368.Google Scholar
Kwon, S. L., Smith, R. J. Jr., and Talbert, R. E. 1991b. Interference of red rice (Oryza sativa) densities in rice (O. sativa). Weed Sci 39:197–174.Google Scholar
Martinez-Ghersa, M. A., Satorre, E. H., and Ghersa, C. M. 1997. Effect of soil water content and temperature on dormancy breaking and germination of three weeds. Weed Sci 45:791797.Google Scholar
Nelms, C. O. and Twedt, D. J. 1996. Seed deterioration in flooded agricultural fields during winter. Wildl. Soc. Bull 24:8588.Google Scholar
Noldin, J. A. 1995. Characterization, Seed Longevity, and Herbicide Sensitivity of Red Rice (Oryza sativa L.) Ecotypes, and Red Rice Control in Soybeans [Glycine max (L.) Merr.]. Ph.D Dissertation. College Station, TX: Texas A&M University. 218 p.Google Scholar
Noldin, J. A., Chandler, J. M., and McCauley, G. N. 2006. Seed longevity of red rice ecotypes buried in soil. Planta Daninha 24:611620.Google Scholar
Romani, M. 2008. Tecnica colturale. Pages 298323. In Ferrero, A. ed. Collana Coltura e Cultura: Il Riso. Bologna: Article Editorial Services, Art Publishing Services [In Italian]. Pages. 696.Google Scholar
Seefeldt, S. S., Jensen, J. E., and Fuerst, E. P. 1995. Log–logistic analysis of herbicide dose–response relationships. Weed Technol 9:218227.Google Scholar
Shivrain, V. K., Burgos, N. R., Gealy, D. R., Smith, K. L., Scott, R. C., Mauromoustakos, A., and Black, H. 2009. Red rice (Oryza sativa) emergence characteristics and influence on rice yield at different planting dates. Weed Sci 57:5794.Google Scholar
Shivrain, V. K., Burgos, N. R., Scott, R. C., Gbur, E. E. Jr., Estorninos, L. E. Jr., and McClelland, M. R. 2010. Diversity of weedy rice (Oryza sativa L.) in Arkansas, U.S.A. in relation to weed management. Crop Prot 29:721730.Google Scholar
Tarditi, N. and Vercesi, B. 1999. Il riso crodo: un problema sempre attuale in risicoltura. Inf. Agrar 11:9195. [In Italian].Google Scholar
Teekachunhatean, T. 1985. Release, Induction and Significance of Dormancy in Seeds of Red Rice (Oryza sativa L.). Ph.D Dissertation. Starkville, MS: Mississippi State University. 132 p.Google Scholar
Tinarelli, A. 2007. The agronomical practices in Italian rice cultivation. Pages 133146. In Ferrero, A. and Vidotto, F. eds. Agro-Economical Traits of Rice Cultivation in Europe and India. Vercelli, Italy: Edizioni Mercurio.Google Scholar
Valverde, B. 2005. Can feral rice remain undetected?. Pages 279294. In Gressel, J. ed. Crop Ferality and Volunteerisms. Boca Raton, FL: CRC.Google Scholar
van Groenigen, J. W., Burns, E. G., Eadie, G. M., Horwath, W. R., and van Kessel, C. 2003. Effects of foraging waterfowl in winter flooded rice fields on weed stress and residue decomposition. Agric. Ecosyst. Environ 95:289296.Google Scholar
Vidotto, F. and Ferrero, A. 2009. Interaction between weedy rice and cultivated rice in Italy. Italian Journal of Agronomy 4:127136.Google Scholar
Vidotto, F., Ferrero, A., and Ducco, G. 2001. A mathematical model to predict the population dynamics of Oryza sativa var. sylvatica . Weed Res 41:407420.Google Scholar