Re-seed or not re-seed? Factors affecting rangeland grass-seedling establishment. Review

Autores/as

  • Aldo Torres Sales Universidade Federal de Pernambuco. Pernambuco – Brasil.
  • Carlos Villalobos González Texas Tech University

DOI:

https://doi.org/10.22319/rmcp.v15i3.6541

Palabras clave:

Rangelands, Adventitious root, Rangeland restoration, Seedling establishment, Rangeland reseeding

Resumen

Although seedling has a significant role in the maintenance of plant diversity, productivity, and biochemical cycles in the rangeland. However, little is known about the influence of environmental factors in the seedling establishment, as well as the differences in the morphological development among species. To understand of seedlings establishment becomes of crucial importance to improve the success of reseeding of natural ecosystems. This literature review investigated which factors are addressed with failures in the seedling establishment of native grasses in rangeland conditions. Germinating seed grass is not big a problem if there are optimum environmental conditions. The heart of the matter is to ensure the survival and growth of these seedlings until the complete establishment as plant. The moisture and temperature of soil are the main environmental factors associated with failures in seedling establishment. The studies reviewed showed that annual plants have higher seedling growth rates, however lower allocation to reproductive structures when compared to mid-seral and late successional plants. These differences also promote different rates of seedling survival rate, with early seral grass showing higher rates than late seral. Apparently, the main cause of seedlings failures in the establishment is correlated with the development and extension of the adventitious roots. Where the reports describe that seedling emerge quickly and abundantly in most grasses, but the seedlings died between six and ten weeks of age. It was addressed that a plant can germinate and sprout the primary roots, however, for an unknown reason the plant does not sprout the adventitious root.

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Jurado-Guerra P, Velázquez-Martínez, M, Sánchez-Gutiérrez RA, Álvarez-Holguín A, Domínguez-Martínez PA, Gutiérrez-Luna R, Chávez-Ruiz MG. The grasslands and scrublands of arid and semi-arid zones of Mexico: Current status, challenges and perspectives. Rev Mex Cienc Pecu 2021;12(Supl 3):261-285.

D’Odorico P, Bhattachan A, Davis KF, Ravi S, Runyan CW. Global desertification: drivers and feedback. Adv Wat Resour 2013;(51)326- 344.

Brown L. World’s rangelands deteriorating under mounting pressure EPI. In: Brown L, editor. Eco-Economy: Building an economy for the earth. W.W. Norton & Company; 2003:115.

Gaitán JJ, Bran DE, Oliva GE, Aguiar MR, Buono GG, Ferrante D et al. Aridity and overgrazing have convergent effects on ecosystem structure and functioning in Patagonian rangelands. Land Deg Develop 2018;29(2):210-218.

Johnson J, Cash SD, Yeager T, Roberts F, Sowell B. Restoring native plant species in crested wheatgrass rangelands using glyphosate and no-till reseeding. Environ Manag Sustainable Develop 2016;5(2):76.

Rector BS. Rangeland risk management for Texans: Seeding Rangeland; Texas AgriLife Extension Service. Austin; 2000.

Guzman-Aranda JC, Hoth J, Berlanga H: Plan maestro de la alianza regional para la conservación de los pastizales del desierto Chihuahuense. Comisión para la Cooperación Ambiental. Montreal. Book review: Rangeland Ecology, Management and Conservation Benefits. Pastoralism. Springer Berlin Heidelberg; 2017.

Orloff LN, Mangold JM, Menalled FD. Role of size and nitrogen in competition between annual and perennial grasses. Invasive Plant Sci Management 2013;(6):87–98.

Esau K. Anatomy of seed plants. 1st. ed. Italy: Wiley; 1977.

Tischler CR, Voigt PW, Holt EC. Adventitious root initiation in kleingrass in relation to seedling size and age. Crop Sci Soc Am 1989;(29):180-189.

Newman PR, Moser LE. Seedling root development and morphology of cool-season and warm-season forage grasses. Crop Sci 1988;(28):148-151.

Larson JE, Funk JL. Seedling root responses to soil moisture and the identification of a belowground trait spectrum across three growth forms. New Phytology 2016;210:827-838.

Briske DD, Wilson AM. Moisture and temperature requirements for adventitious root development in blue grama seedlings. J Range Management 1978;31(3):174.

Leffler AJ, Monaco TA, James JJ. Nitrogen acquisition by annual and perennial grass seedlings: testing the roles of performance and plasticity to explain plant invasion. Plant Ecology 2011;212(10):1601–1611.

Chivers IH, Jones TA, Broadhurst LM, Mott IW, Larson SR. The merits of artificial selection for the development of restoration-ready plant materials of native perennial grasses. Restoration Ecol 2016;24(2):174–183.

Maron JL, Pearson DE, Potter T, Ortega YK. Seed size and provenance mediate the joint effects of disturbance and seed predation on community assembly. J Ecology 2012;100(6):1492–1500.

Hyder DN, Everson AC, Bement RE. Survival and growth of blue grama seedlings in competition with western wheatgrass. J Range Management 1971;24(5):287–292.

Gommers CMM, Monte E. Seedling establishment: a dimmer switch-regulated process between dark and light signaling. Plant Physiol 2018;176(2):1061–1074.

Sluijs DH Van Der, Hyder DN. Growth and longevity of blue grama seedlings restricted to seminal roots. J Range Management 1974;27(2):117-119.

Atwater DZ, James JJ, Leger EA. Seedling root traits strongly influence field survival and performance of a common bunchgrass. Basic Apply Ecol 2015;16(2):128–140.

Guzmán FJH, Leodan TRO, Mauricio VL. Influencia del tamaño de cariópside y embrión en el desarrollo de plántulas de pastos. Interciencia 2021;309-316.

Rosas-Ramos, Xuxan Alyn. Seed yield variables of five wild Poaceae species in La Siberia, Chapingo, México. Agro Productividad. 2022.

Snyman H. Soil seed bank evaluation and seedling establishment along a degradation gradient in a semi-arid rangeland. African J Range Forage Sci 2004;21(1):37–47.

Hsu FH, Nelson CJ, Matches AG. Temperature effects on seedling development of perennial warm-season forage grasses. Crop Sci 1985;25(2):249-255.

McGinnies WJ. Effects of moisture stress and temperature on germination of six range grasses. Agronomy J 1960;52(3):159-162.

Fay PA, Schultz MJ. Germination, survival, and growth of grass and forb seedlings: Effects of soil moisture variability. Acta Oecologica 2009;35(5):679–684.

Xu L, Myneni RB, Chapin III FS, Callaghan TV, Pinzon JE, Tucker CJ. Temperature and vegetation seasonality diminishment over northern lands. Nat Climate Changing 2013;3(6):581–596.

Calleja-Cabrera J, Boter M, Oñate-Sánchez L, Pernas M. Root growth adaptation to climate change in crops. Frontiers Plant Sci 2020;(11).

Gurevitch J, Scheiner S, Fox GA. The ecology of plants. Massachusetts; Sinauer Associate; 2002.

Rajagopalan B, Lall U. Interannual variability in western US precipitation. J Hydrology 1998;210(1):51-67.

Loik ME, Breshears DD, Lauenroth WK, Belnap J. A multi-scale perspective of water pulses in dryland ecosystems: climatology and ecohydrology of the western USA. Oecologia 2004;141(2):269–281.

Noy-Meir I. Desert ecosystems: Environment and producers. Annu Rev Ecol Syst. 1973;4(1):25–51.

Frasier GW, Woolhiser DA, Cox JR. Emergence and seedling survival of two warm-season grasses as influenced by the timing of precipitation: A Greenhouse Study. J Range Management 1984;37(1):7-11.

Kambatuku JR, Cramer MD, Ward D. Overlap in soil water sources of savanna woody seedlings and grasses. Ecohydrology 2013;6(3):464–473.

Nippert JB, Wieme RA, Ocheltree TW, Craine JM. Root characteristics of C4 grasses limit reliance on deep soil water in tallgrass prairie. Plant Soil 2012;355(1–2):385–394.

Herbel C, Sosebee R. Moisture and temperature effects on emergence and initial growth of two range grasses. Agronomy J 1969;61(4):628-631.

Moles WM. Seedling survival and seed size: a synthesis of the literature. J Ecology 2004;92(3):372–383.

Ackerly D. Functional strategies of chaparral shrubs in relation to seasonal water deficit and disturbance. Ecological Monographs 2004;74(1):25–44.

Harrington GN. Effects of soil moisture on shrub seedling survival in semi-arid grassland. Ecology 1991;72(3):1138–1149.

Davis T, Haissig B. Biology of adventitious root formation. In: 1st International Symposium. 1993:375-331.

Plummer AP. Germination and early seedling development of twelve range grasses. J Am Soc Agron Am Soc Agron 1943;35:19–34.

Pang K, Van Sambeek JW, Navarrete-Tindall NE, Lin C-H, Jose S, Garrett HE. Responses of legumes and grasses to non-, moderate, and dense shade in Missouri, USA. I. Forage yield and its species-level plasticity. Agroforestry Syst 2017;1–14.

Tiedemann AR, Klemmedson JO, Ogden PR. Response of four perennial southwestern grasses to shade. J Range Management 1971;24(6):442-447.

Kato Y, Okami M. Root morphology, hydraulic conductivity and plant water relations of high-yielding rice grown under aerobic conditions. Ann Botany 2011;108(3):575–583.

Berti MT, Johnson BL. Switchgrass establishment as affected by seeding depth and soil type. Ind Crops Products 2013;41:289–293.

Nasso NN, Lasorella MV, Roncucci N, Bonari E. Soil texture and crop management affect switchgrass (Panicum virgatum L.) productivity in the Mediterranean. Industrial Crops 2015;(65):21–26.

Lueck AG, Sprague V, Garber RJ, Garber RJ. The effects of a companion crop and depth of planting on the establishment of smooth bromegrass, Bromus inermis Leyss. Agronomy J 1949;41:137–140.

Fan J-W, Du Y-L, Turner NC, Li F-M, He J. Germination characteristics and seedling emergence of switchgrass with different agricultural practices under arid conditions in China Crop Sci 2012;52(5):2341-2350.

Anderson JE. Some effects of date of planting, depth of planting, and fertilization on the performance of five important native grasses of Texas. J Range Management 1956;(9):46–52.

Zhu Y, Yang X, Baskin CC, Baskin JM, Dong M, Huang Z. Effects of amount and frequency of precipitation and sand burial on seed germination, seedling emergence and survival of the dune grass Leymus secalinus in semiarid China. Plant Soil 2014;(374):399–409.

Boyd NS, Van Acker RC. The effects of depth and fluctuating soil moisture on the emergence of eight annual and six perennial plant species. Weed Sci 2003;(51):725–730.

Bewley JD, Bradford KJ, Kent J, Hilhorst HWM, Nonogaki H. Seeds: physiology of development germination, and dormancy. New York, USA: Springer; 2013.

Harris GA. Root phenology as a factor of competition among grass seedlings. J Range Management 1977;30(3):172-177.

Alhamad MN, Noor M. Impact of grazing and life forms interactions on plant communities in arid areas. EGU Gen Assem. Vienna. 2015:12-17.

Larson JE, Sheley RL, Hardegree SP, Doescher PS, James JJ. Seed and seedling traits affecting critical life stage transitions and recruitment outcomes in dryland grasses. J Appl Ecology 2015;(52):199–209.

Gutiérrez-Gutierrez OG, Rivero-Hernández O, Vega-Mares JH, Melgoza-Castillo A. Germination patterns on grasses present at the Chihuahuan desert. Botanical Sciences 2022;(100)4:989-999.

Chen Y, Palta J, Prasad PV, Siddique KH. Phenotypic variability in bread wheat root systems at the early vegetative stage. BMC Plant Biol 2020;(20):1-16.

Tessema ZK, de Boer WF, Prins HHT. Changes in grass plant populations and temporal soil seed bank dynamics in a semi-arid African savanna: Implications for restoration. J Environ Management 2016;(182):166–175.

Manea A, Leishman MR. Competitive interactions between established grasses and woody plant seedlings under elevated CO2 levels are mediated by soil water availability. Oecologia 2015;(177):499–506.

Ries RE, Svejcar TJ. The Grass Seedling: When Is It Established? J Range Management 1991;(44):574-576.

Harris GA, Wilson AM. Competition for moisture among seedlings of annual and perennial grasses as influenced by root elongation at low temperature. Ecology 1970;(51):530–534.

Coll L, Balandier P, Picon-Cochard C. Morphological and physiological responses of beech (Fagus sylvatica) seedlings to grass-induced belowground competition. Tree Physiol 2004;(24):45–54.

Florentine SK, Weller S, Graz PF, Westbrooke M, Florentine A, Javaid M. Influence of selected environmental factors on seed germination and seedling survival of the arid zone invasive species tobacco bush (Nicotiana glauca R. Graham). Rangeland J 2016;(38):417- 427.

Sheley RL, James JJ. Simultaneous intraspecific facilitation and interspecific competition between native and annual grasses. J Arid Environ 2014;(104):80–87.

Bernard-Verdier M, Navas ML, Vellend M, Violle C, Fayolle A, Garnier E. Community assembly along a soil depth gradient: contrasting patterns of plant trait convergence and divergence in a Mediterranean rangeland. J Ecol 2012;100(6):1422–1433.

Crews TE, DeHaan LR. The strong perennial vision: A response. Agroecol Sustain Food Syst 2015;(39):500–515.

Sanderson MA, Schmer M, Owens V, Keyser P, Elbersen W. Crop management of switchgrass. London: Springer; 2012:87–112.

Whalley RDB, McKell CM, Green LR. Seedling vigor and the early nonphotosynthetic stage of seedling growth in grasses. Crop Sci 1966;(6):147-150.

Haling RE, Richardson AE, Culvenor RA, Lambers H, Simpson RJ. Root morphology, root-hair development and rhizosheath formation on perennial grass seedlings is influenced by soil acidity. Plant Soil. Springer Netherlands 2010;(335):457–468.

Leck MA, Parker VT, Simpson R. Seedling ecology and evolution. 1st ed. UK: Cambridge University Press; 2008.

Smart AJ, Vogel KP, Moser LE, Stroup WW. Divergent selection for seedling tiller number in big bluestem and switchgrass. Crop Sci 2003;(43):1427-1433.

Detling JK. Processes controlling blue grama production on the shortgrass prairie. In: French N, editor. Perspectives in grassland ecology. Springer. New York: Springer, New York, NY; 1979:25–42.

Sánchez-Valdés JJ, Vega-García JI, González FL, Colín-Navarro V, Marín-Santana MN, Ávila-González R, Gómez-Miranda, A. Festulolium and annual ryegrass pastures associated with white clover for small-scale dairy systems in high valleys of Mexico. Agro Productividad 2023;16(4):32–42.

Krassovsky I. Physiological activity of the seminal and nodal roots of crop plants. Soil Sci 1926;24(4):307-311.

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Publicado

12.08.2024

Cómo citar

Torres Sales, A., & Villalobos González, C. (2024). Re-seed or not re-seed? Factors affecting rangeland grass-seedling establishment. Review. Revista Mexicana De Ciencias Pecuarias, 15(3), 700–720. https://doi.org/10.22319/rmcp.v15i3.6541
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Vol. 15 Núm. 3 (2024): Julio-Septiembre

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