Emergencia y crecimiento plantular de Atriplex canescens (Pursh) Nutt. En relación a tamaño de semilla y microambientes

Autores/as

  • Luis Pérez Romero M.C. Maestro Investigador del Depto. de Recursos Naturales, Div. de Ciencia Animal. UAAAN.
  • Rafael Jiménez Salazar M.Sc. Maestro Investigador del Depto. de Tecnología de Semillas, Div. de Agronomía. UAAAN.
  • Roberto Nava Coronel M.C. Maestro Investigador del Depto. de Recursos Naturales, Div. de Ciencia Animal. UAAAN.
  • Ricardo Reynaga Valdés M.C. Maestro Investigador del Depto. de Recursos Naturales, Div. de Ciencia Animal. UAAAN.

DOI:

https://doi.org/10.59741/agraria.v6i2.138

Resumen

En este estudio se evaluaron las fases de emergencia y subsecuente crecimiento plantular de Atriplex canescens influenciado por el tamaño de semilla y microambientes en comunidades de Larrea. Para tamaño de semilla de A. canescens se seleccionaron dos tamaños: 3.0 mm (grandes) y 2.0 mm (pequeños) y se definieron tres microambientes a partir del centro de la planta adulta de Larrea: (i) isla de fertilidad, (ii) periferia de Larrea y (iii) entre arbustos de Larrea. Este estudio fue conducido bajo condiciones de invernadero. 

Los resultados indican que el tamaño de semilla no tiene una influencia significativa en emergencia y crecimiento plantular de A. canescens. No obstante, el microambiente muestra una significancia en sus efectos sobre la emergencia y crecimiento. Resultando que tanto la emergència como el crecimiento fue mayor en la isla de fertilidad que en el microambiente caracterizado entre arbustos de Larrea. 

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Referencias

Antonovics, J., and R.B. Primarck. 1982. Experimental ecological genetics in plantago VI. The demography of seedling transplants of P. lanceolata. J. Ecology 70(1):55-75 p. DOI: https://doi.org/10.2307/2259864

Baker, H.G. 1974. The evolution of weeds. Ann. Rev. Ecol. system 5:1-24 p. DOI: https://doi.org/10.1146/annurev.es.05.110174.000245

Baskin, J.M. y C.C. Baskin. 1972. Influence of germination date on survival and seed production in a natural population of Leavenworthia stylosa. Amer. Midl. Nat. 88(2):318-323 p. DOI: https://doi.org/10.2307/2424357

Chapin, F.S., III 1980. The mineral nutrition of wild plants. Ann. Rev. Ecol. Syst. DOI: https://doi.org/10.1146/annurev.es.11.110180.001313

:233-260 p.

Cideciyan, M.A. y A.J. Malloch. 1982. Effect of seed size on the germination, growth and competitive ability of Rumex crispus and Rumex obtusifolius. J. Ecology 70(1):227-232 p. DOI: https://doi.org/10.2307/2259875

Cook, R.E. 1979. Pattern of juvenile mortality and recruitment in plants. In: Sol- brig, O.T., S. Jain, G.B. Jonhson, and P.H. Raven (Eds.) Topics in plant population biology. Columbia University Press New York. 207-231 p. DOI: https://doi.org/10.1007/978-1-349-04627-0_10

The biology of seed in the soil. In: Solbrig O.T. (Ed.). Demography and evolution in plant populations. 107-129 p.

Cox, J.R., J.M. Parker y J.L. Stroehlein. 1984. Soil propieties in creostebush communities and their relative effects on the growth of seeded range grasses. Soil Sci. Soc. Am. 46(6):1442-1445 p. DOI: https://doi.org/10.2136/sssaj1984.03615995004800060047x

Eckert, R.E. Jr., M.K. Wood, W.H. Blackburn, F.F. Peterson, J.L. Stephens and M.S. Meurisse. 1978. Effects of surface-soil morphology on improvement and management of some arid and semiarid rangelands. Proceeding of First International Rangeland Congress. Denver, Colorado. p. 299-302.

González, E.M. 1975. Distribución espacial de la vegetación y su interpretación sucesional en el norte del Estado de Zacatecas. Tesis Ingeniero Agrónomo. Esc. Nac. de Agricultura. Departamento de Zootecnia. Chapingo, México. 263 p.

Graves, W., B.L. Kay y W.A. William. 1974. Seed treatment studies of seven Mohave Desert shurb Apéndice II. Test of seed of Mohave Desert Shurb. University of California Press. 34 p.

Gross, K. 1984. Effects of seed size and growth from on seedling establishment DOI: https://doi.org/10.2307/2260053

of six monocarpic perenials. J. Ecology 22(1):369-387 p.

y P.A. Warner. 1982. Colonizing abilities of "biennial" plant species in relation to ground cover: implications for their distributions in a successional sere. Ecology 72(1):369-387.

Grubb, P.J. 1977. The maintenance of species-richness in plant communities: the importance of the regeneration niche. Biological Reviews 52:107-145. DOI: https://doi.org/10.1111/j.1469-185X.1977.tb01347.x

Gutiérrez, C.J., F.M. Smith, y J.G. Medina. 1979. Características hidrológicas de la Cuenca San Tiburcio, Zacatecas. Universidad Autónoma Agraria Antonio Narro. Monografía Técnico-Científica 5(4):212-327 p. México.

Halvorson, W.L. y D.T. Patten. 1975. Productivity and flowering of winter ephemerals in relation to Sonoran Desert shurb. Am. Midl. Nat. 93(2):311-319 p. United States of America. DOI: https://doi.org/10.2307/2424164

Harper, J.L., 1977. Population biology of plants. Academic Press. New York. 645

p.

P.H. Lovell y K.G. Moore. 1970. The shapes and size of seed. Ann. Rev. Ecol. System. 1:327.356 p. DOI: https://doi.org/10.1146/annurev.es.01.110170.001551

J.T. Williams, y G.R. Sagar. 1965. The behavior of seed in the soil: I. The heterogenety of soil its role in determining the establishment of plants from seed. J. Ecology 53(2):273-278 p. DOI: https://doi.org/10.2307/2257975

Hunt, R. 1984. Plant growth curves. The functional approach to plant growth

analysis. Eduard Arnold. 248 p. Great Britain.

Khan, M.A. y I.A. Ungar. 1984. Seed polimorphism and germination responses to salinity stress in Atriplex triangularis Willd. Bot. Gaz. 145(4):487-494 p. DOI: https://doi.org/10.1086/337483

North, E.C. y J.E. Whitacre. 1957. Germination of fourwing saltbush seed improved by scarification and grading. Forest Research Notes. California Forestand Range Experimental Station. USDA. Forest Service. Note. 1255 p.

Patten, D.T. 1978. Productivity and production efficiency of an upper Sonoran Desert ephemeral community. Amer. J. Botany 65(8):891-895 p. United States of America. Philipupillai, M.A., y I.A. Ungar. 1984. The effect of seed dimorphism on the ger- mination and survival of Salicornia europaea L. Population Amer. J. Bot. 71(4):542-549 p. DOI: https://doi.org/10.1002/j.1537-2197.1978.tb06151.x

Silvertown, J.W. 1981. Seed size, life spon, and germination date as coadapted

features on plant life history. Amer. Nat. 118(6):860-864 p.

Stevens R. y G.A. Van Epps. 1983. Seedling techniques to improve establishment of forage kochia (Kochia prostata (L) Schord) and fourwing saltbush (Atri- plex canescens (Pursh.) Nutt.) In: Tiedemann, A.R., E.D. McArthur, H.C. Stutz, R. Stevens. J.L. Kendall (Comp.) proceeding-symposium on the bio- logy of Atriplex and related chenopods. May 2-6 Provo Ut. Gen. Tech. Rep. INT-172. Ogden Ut. USDA-Forest Service. Intermountain Forest and Ran- ge Experimental Station. 269-271.

Taylor, G.B. 1972. The effect of seed size on seedling growth in subterranean DOI: https://doi.org/10.1071/AR9720595

clovel (Trifolium subterraneum L.) Aust. J. Agric. Res. 23(4):595-603 p.

Ungar, L.A. 1982. Germination ecology of halphytes. In: Sen D.M. and K.S. Rajpurohit (Eds.) Task for vegetation science vol. 2. Dr. W. Junk Publishers, The Hague. 143-154 p. DOI: https://doi.org/10.1007/978-94-009-8037-2_10

Autoecological studies with Atriplex triangularis willdeniw. In: Tiedemann, A.R., E,D. McArtur, H.C. Stut. R. Stevens and K.L. Johnson (com- pilers). Proceeding-Symposium on the biology of Atriplex and related chenopods: May 2-6 Provo UT. Gen. Tech. Rep. INT-172. USDA. Forest Service, Intermountain Forestand Range Experimental Station. 40-52 p.

Westoby, M. 1981. How diversified germination behavior as selected. Amer. Nat. DOI: https://doi.org/10.1086/283880

(6):882-885 p.

Winn, A.A. 1985. The effects of seed size and microsite on seedling emergence DOI: https://doi.org/10.2307/2260150

in Prunella vulgaris. J. Ecology 73(4):831-840.

Wood, M.K., W.H. Blackburn, R.E. Eckert, Jr. and F.F. Peterson. 1978. Interre- lations of the phisical properties of coppice dune and vesicular dune interfase soil with grass seedling emergence. J. Range Management 31 (3):189-192 p.

R.E. Eckert Jr. W.,H. Blackburn and F.F. Peterson. 1978. Interrelations of the phisical properties of coopice dune and vesicular dune interfase soil with grass seedling emergence. J. Range Management 31 (3): 189-192 p. DOI: https://doi.org/10.2307/3897177

R.E. Eckert Jr. W.,H. Blackburn and F.F. Peterson. 1982. Influence of crusting soil surface on emergence and establishment of crested wheat- grass, squirreltail, thurber needlegrass, and fourwing saltbush. J. Range Manage 35 (3):282-287 p. DOI: https://doi.org/10.2307/3898302

Wulff, R.D. 1973. Intrapopulation variation in the germination of seed in Hyptis DOI: https://doi.org/10.2307/1935354

suaveolens. Ecology 54(3):646-649 p.

Seed size variation in Desmodium paniculatum. II. Effects on seedling growth phisiological performance J. Ecology 74(1):99-114 p. DOI: https://doi.org/10.2307/2260351

Zimmerman, J.K. and M. Weis. 1983. Fruit size variation and its effects on ger- mination and seedling growth in Xanthium strumarium. Canadian Journal of Botany 61 (9): 2309-2315. DOI: https://doi.org/10.1139/b83-253

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Publicado

15-12-1990

Número

Vol. 6 Núm. 2 (1990): Julio-Diciembre de 1990

Sección

Artículos de divulgación

Licencia

Creative Commons License

Esta obra está bajo una licencia internacional Creative Commons Atribución-CompartirIgual 4.0.

Cómo citar

Emergencia y crecimiento plantular de Atriplex canescens (Pursh) Nutt. En relación a tamaño de semilla y microambientes . (1990). Agraria, 6(2), 164-179. https://doi.org/10.59741/agraria.v6i2.138

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