Germination potential of Dasylirion spp. as response to pre-germination thermal regimes

Germination potential of Dasylirion spp.

Authors

DOI:

https://doi.org/10.19136/era.a11n3.4005

Keywords:

Cucharilla, germinative energy, latency, pericarp, sotol

Abstract

The Dasylirion genus is of economic, environmental and cultural importance. Its main form of reproduction is sexual; however, the seeds present exogenous dormancy, which hinders their proliferation and reduces the natural population. This study aimed to evaluate the germination potential of Dasylirion spp. in response to different thermal regimes applied to fruits under laboratory conditions. A directed sampling was carried out to collect inflorescences in San Andrés Lagunas and San Jerónimo, Villa de Tamazulapam in 2022, and a composite sample of fruits from Asunción Nochixtlán in 2021, these localities belonging to the Oaxacan Mixtec region. Reproductive indicators of the seeds were measured. Statistical analyses were performed on germination data in a completely randomized design with factorial arrangement (3 collection sites, 3 temperatures-time and 3 methods of heat application), analysis of variance, Duncan's comparison of means (P ≤ 0.05) and regression models. San Jeronimo seeds showed significantly higher weight (5.28 g), purity (88 %), viability (70 %) and humidity (10 %); likewise, they significantly surpassed San Andres and Nochixtlán in germination speed, germination speed index and germination percentage. In the San Jeronimo sample, the treatment with heat in an oven at 58 °C for 4 minutes obtained 96% germination after 15 days. In addition, it was observed that temperatures of 40 °C and 58 °C weakened the physical structure and mechanical resistance of the cover, which facilitated its removal.

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References

Bai B, Peviani A, Van Der Horst S, Gamm M, Snel B, Bentsink L, Hanson J (2017) Extensive translational regulation during seed germination revealed by polysomal profiling. New Phytologist 214: 233–244. https://doi.org/10.1111/nph.14355

Basu S, Groot SPC (2023) Seed Vigour and Invigoration. In: Dadlani M, Yadava DK (eds) Seed science and technology. Springer. Singapore. pp. 1-30. https://doi.org/10.1007/978-981-19-5888-5_4

Benavides-Mendoza A, Hernández-Juárez A, Francisco-Francisco N (2023) Germinación, crecimiento vegetativo y morfología floral de Dasylirion cedrosanum del matorral rosetófilo de Coahuila. CienciaUAT 18(1): 191-201. https://doi.org/10.29059/cienciauat.v18i1.1772

Bidwell RGS (1979) Fisiología Vegetal. 2da Edición. Editorial A.G.T. S.A. México. 804p.

Celis-Velázquez R, Peña-Valdivia B, Luna-Cavazos M (2010) Caracterización morfológica de las semillas y consumo de reservas durante la emergencia de plántulas de frijol (Phaseolus vulgaris L.) silvestre y domesticado. Revista Facultad de Agronomía 27: 61–87.

CONABIO (2023) En ciclo Vida. Comisión Nacional para el Conocimiento y Uso de la Biodiversidad. https://enciclovida.mx/. Fecha de consulta: 5 de abril del 2023.

CONAGUA (2023) Normales Climatológicas por Estado. Comisión Nacional del Agua. https://smn.conagua.gob.mx/es/climatologia/informacion-climatologica/normales-climatologicas-por-estado. Fecha de consulta: 21 diciembre del 2023.

Czabator FJ (1962) Germination Value: An index combining speed and completeness of pine seed germination. Forest Science 8: 386-396.

Doria J (2010) Generalidades sobre las Semillas: Su producción, conservación almacenamiento. Cultivos Tropicales 31(1): 74–85. https://doi.org/10.1016/S0168-6496(98)00035-X

Duarte J, Martínez AA (2019) El manual del sotol. Primera edición. Editorial Mixlab. Chihuahua, Chihuahua. 42p.

Eshel G, Duppen N, Wang G, Oh DH, Kazachkova Y, Herzyk P, Amtmann A, Gordon M, Chalifa-Caspi V, Oscar MA, Bar-David S, Marshall-Colon A, Dassanayake M y Barak S (2022) Positive selection and heat-response transcriptomes reveal adaptive features of the Brassicaceae desert model, Anastatica hierochuntica. New Phytologist 236: 006-1026. https://doi.org/10.1111/nph.18411

FAO (1983) Recolección, manipuleo, almacenaje y pre-tratamiento de las semillas de Prosopis en América Latina. Universidad de Arizona Tucson. Organización de las Naciones Unidas para la Alimentación y la Agricultura. https://www.fao.org/3/q2180s/Q2180S00.htm#TOC Fecha de consulta: 19 diciembre del 2022.

FAO (2019) Materiales para capación en semillas-Módulo 6: Almacenamiento de semillas (Roma). Organización de las Naciones Unidas para la Alimentación y la Agricultura. http://www.fao.org/publications/es. Fecha de consulta: 21 diciembre del 2022

Footitt S, Clay HA, Dent K, Finch-Savage WE (2014) Environment sensing in spring-dispersed seeds of a winter annual Arabidopsis influences the regulation of dormancy to align germination potential with seasonal changes. The New phytologist 202(3): 929–939. https://doi.org/10.1111/nph.12694

González-Chávez JJ, Arenas-Grimaldo C, Amaya-Delgado L, Vázquez-Núñez E, Suarez-Vázquez S, Cruz-López A, Segovia-Hernández JG, Pérez-Vega S, Salmerón I, Molina-Guerrero CE (2022) Sotol bagasse (Dasylirion sp.) as a novel feedstock to produce bioethanol 2G: Bioprocess design and biomass characterization. Industrial Crops and Products 178: e114571. https://doi.org/10.1016/j.indcrop.2022.114571

Haeckel IB (2008) The “Arco Floral”: ethnobotany of Tillandsia and Dasylirion spp. In a Mexican religious adornment. Economic Botany 62(1): 90-95.

He H, De Souza Vidigal D, Basten Snoek L, Schnabel S, Nijveen H, Hilhorst H, Bentsink L (2014) Interaction between parental environment and genotype affects plant and seed performance in Arabidopsis. Journal of Experimental Botany 65: 6603–6615 https://doi.org/10.1093/jxb/eru378

Hernández-Quintero JD, Reyes-Valdés MH, Mendoza-Rodríguez DV, Gómez-Martínez M, Rodríguez-Herrera R (2015) Estudio de los cromosomas mitóticos y meióticos del sotol (Dasylirion cedrosanum Trel.). Revista Internacional de Botánica Experimental 84: 107–112.

Huss JC, Gierlinger N (2021) Functional packaging of seeds. In New Phytologist Blackwell Publishing LTD 230: pp. 2154–2163 https://doi.org/10.1111/nph.17299

IMPI (2002) Declaración de protección a la denominación de origen sotol. Instituto Mexicano de la Propiedad Industrial. https://www.dof.gob.mx/nota_to_doc.php?codnota=721593. Fecha de consulta: 10 de enero del 2023.

INEGI (2004) Síntesis de Información geográfica del estado de Oaxaca. Instituto Nacional de Estadística y Geografía. https://antares.inegi.org.mx/. Fecha de consulta: 10 de marzo del 2024.

ISTA (2019) International Rules for Seeed Testing. https://www.seedtest.org/en/publications/international-rules-seed-testing.htm. Fecha de consulta: 10 de diciembre del 2023.

Jimenez-Torres JA, Peña-Valdivia CB, Padilla-Chacon D, Garcia-Nava R (2021) Physiological and biochemical responses of Agave to temperature and climate of their native environment. Flora 278: 151797. https://doi.org/10.1016/j.flora.2021.151797

Juárez-Morales M, Martínez-Salvador M, Chávez-Mendoza C, Villarreal-Guerrero F, Pinedo-Álvarez A, Santellano-Estrada E, Corrales-Lerma R, Hernández-Quiroz NS, Vega-Mares JH (2023) Ecological Attributes of the Shrubby Community of Sotol (Dasylirion leiophyllum) in the Chihuahuan Desert, Mexico. Forests 14(12): 2343. https://doi.org/10.3390/f14122343

Kranner I, Minibayeva FV, Beckett RP, Seal CE (2010) What is stress? Concepts, definitions and applications in seed science. In New Phytologist 188: 655–673 https://doi.org/10.1111/j.1469-8137.2010.03461.x

Lambers H, Chapin FS, Pons TL (2008) Plant physiological ecology. Springer. New York, USA. 571p. https://doi.org/10.1007/978-0-387-78341-3

Leslie AB, Beaulieu JM, Mathews S (2017) Variation in seed size is structured by dispersal syndrome and cone morphology in conifers and other nonflowering seed plants. New Phytologist 216: 429–437. https://doi.org/10.1111/nph.14456

Lin L, Cai L, Fan L, Ma JC, Yang XY, Hu XJ (2022) Seed dormancy, germination and storage behavior of Magnolia sinica, a plant species with extremely small populations of Magnoliaceae. Plant Diversity 44: 94–100. https://doi.org/10.1016/j.pld.2021.06.009

Maguire DJ (1962) Speed of germination aid in selection and evaluation for seed-ling emergence and vigor. Crop Science 2: 176-177.

Morales-Santos ME, Peña-Valdivia CB, García-Esteva A, Aguilar-Benítez G, Kohashi-Shibata J, Potosí L (2017) Características físicas y de germinación en semillas y plántulas de frijol (Phaseolus vulgaris L.) silvestre, domesticado y su progenie. Agrociencia 51: 43–62.

Nagel M, Kranner I, Neumann K, Rolletschek H, Seal CE, Colville L, Fernández-Marín B, Börner A (2015) Genome-wide association mapping and biochemical markers reveal that seed ageing and longevity are intricately affected by genetic background and developmental and environmental conditions in barley. Plant Cell and Environment 38: 1011–1022. https://doi.org/10.1111/pce.12474

Nakagawa J (1999) Teste de vigor baseados no desempenho das plântulas. In: Krzyzanowski FC, Vieira RD, França NJB (eds). Vigor de sementes: Conceitos e testes. Abrates. Londrinas. Brasil. pp. 1-24.

Nautiyal PC, Sivasubramaniam K, Dadlani M (2023) Seed dormancy and regulation of germination. In: Dadlani M, Yadava DK (eds) Seed science and technology. Springer. Singapore. pp. 39-66. https://doi.org/10.1007/978-981-19-5888-5_3

Palacios-Romero A, Rodríguez-Laguna R, Razo-Zárate R, Jiménez-Muñoz E (2019) Efecto de diferentes sustratos en el crecimiento de plántulas de Dasylirion acrotrichum (Schiede) Zucc. Revista Mexicana de Ciencias Forestales 10(54): 26-38. https://doi.org/10.29298/rmcf.v10i54.495

Pastrana-Ignes V, Giamminola EM, Rivero MV, Álvarez A, Malagrina G, Galíndez G, Ortega-Baes P (2023) Comportamiento durante el almacenamiento y longevidad potencial en semillas de cuatro especies de árboles nativos de Argentina. Darwiniana Nueva Serie 11(1): 390–401. https://dx.doi.org/10.14522/darwiniana.2023.111.1136

Pellizzaro A, Neveu M, Lalanne D, Ly Vu B, Kanno Y, Seo M, Leprince O, Buitink J (2020) A role for auxin signaling in the acquisition of longevity during seed maturation. New Phytologist 225: 284–296. https://doi.org/10.1111/nph.16150

Penfield S (2017) Seed dormancy and germination. Current Biology 27(17): R874–R878. https://doi.org/10.1016/j.cub.2017.05.050

Probert RJ, Daws MI, Hay FR (2009) Ecological correlates of ex situ seed longevity: A comparative study on 195 species. Annals of Botany 104: 57–69. https://doi.org/10.1093/aob/mcp082

PROFEPA (2020) El sotol y la pata de elefante, especies protegidas por la ley 2020. Procuraduría Federal de Protección al Ambiente. https://www.gob.mx/profepa/articulos/el-sotol-y-la-pata-de-elefante-especies-protegidas-por-la-ley?idiom=es.Fecha de consulta: 11 de enero del 2023.

Rajjou L, Duval M, Gallardo K., Catusse J, Bally J, Job C, Job D (2012) Seed germination and vigor. Annual Review of Plant Biology (63): 507–533. https://doi.org/10.1146/annurev-arplant-042811-105550

Ranganathan U, Groot SPC (2023) Seed Longevity and Deterioration. In: Dadlani M, Yadava DK (eds) Seed Science and Technology. Springer. Singapore. pp. 19-118. https://doi.org/10.1007/978-981-19-5888-5_5

Ren L, Bai Y (2017) Burning modifies composition of emergent seedlings in fescue prairie. Rangeland Ecology and Management 70: 230–237. https://doi.org/10.1016/j.rama.2016.08.013

Renard J, Martínez-Almonacid I, Queralta Castillo I, Sonntag A, Hashim A, Bissoli G, Campos L, Muñoz-Bertomeu J, Niñoles R, Roach T, Sánchez-León S, Ozuna CV, Gadea J, Lisón P, Kranner I, Barro F, Serrano R, Molina I. Bueso E (2021) Apoplastic lipid barriers regulated by conserved homeobox transcription factors extend seed longevity in multiple plant species. New Phytologist 231: 679–694. https://doi.org/10.1111/nph.17399

Reyes-Valdés HM, Palacios R, Rivas-Martínez EN, Robledo-Olivo A, Antonio-Bautista A, Valdés-Dávila CM, Villarreal-Quintanilla JÁ, Benavides-Mendoza A (2019) The sustainability of mexican traditional beverage sotol: Ecological, historical, and technical issues. Processing and Sustainability of Beverages 2: 103–137. https://doi.org/10.1016/b978-0-12-815259-1.00004-5

Reyes-Valdés MH, Benavides-Mendoza A, Ramírez-Rodríguez H, Villarreal-Quintanilla JA (2012) Biología e importancia del sotol (Dasylirion spp). Parte I: sistemática, genética y reproducción. Planta Revista de Difusión del Departamento de Botánica de la FCB de la UANL, México 7: 11-13.

Rodríguez-Trejo DA, García-Pascual E, Quiahua Barrera L, Reyes Valdovinos EY (2019a) Germinación de semillas de Dasylirion lucidum Rose y Beaucarnea gracilis Lemaire de matorral xerófilo. Entreciencias: Diálogos en la Sociedad del Conocimiento 7: 1-20. https://doi.org/10.22201/enesl.20078064e.2019.20.68365

Rodríguez-Trejo DA, Pausas, JG, Miranda-Moreno AG (2019b) Plant responses to fire in a Mexican arid shrubland. Fire Ecology 15: 11. https://doi.org/10.1186/s42408-019-0029-9

Rojas-Aréchiga M, Vázquez-Yanes C, Orozco-Segovia A (1998) Seed response to temperature of Mexican cacti species from two life forms: an ecophysiological interpretation. Plant Ecology 135: 207–214. https://doi.org/10.1023/A:1009757227493

Rubio-de Casas R, Willis CG, Pearse WD, Baskin CC, Baskin JM, Cavender-Bares J (2017) Global biogeography of seed dormancy is determined by seasonality and seed size: a case study in the legumes. New Phytologist 214: 1527–1536. https://doi.org/10.1111/nph.14498

SADER (2015) Sotol, bebida célebre del desierto. Secretaría de Agricultura y Desarrollo Rural https://www.gob.mx/agricultura/es/articulos/sotol-bebida-celebre-del-desierto-orgullodemexico Fecha de consulta: 12 de febrero del 2023.

Santiago A, Herranz JM, Copete MÁ, Herranz R, Ferrandis P (2017) Influencia de las condiciones de temperatura e iluminación en la rotura de latencia y germinación de los endemismos mediterráneos Scilla paui y Scilla ramburei (Liliaceae). Bosque (Valdivia) 38(2): 271-283. https://dx.doi.org/10.4067/S0717-92002017000200005

SAS (2013) User’s Guide of SAS Statistical Analysis System. SAS Institute Inc. Cary, North Carolina, USA. 550p. Fecha de consulta: 1 de noviembre de 2022.

SEMARNAT (2010) Norma Oficial Mexicana NOM-059. Protección ambiental-Especies nativas de México de flora y fauna silvestres-Categorías de riesgo y especificaciones para su inclusión, exclusión o cambio-Lista de especies en riesgo. Secretaria de Medio Ambiente. Diario Oficial. (Segunda sección). Ciudad de México, México. 78 p. https://dof.gob.mx/nota_detalle_popup.php?codigo=5173091. Fecha de consulta: 10 de enero del 2023.

Shalini J, Eena G, Manisha C, Gurpreet K (2024) Exploring fine tuning between phytohormones and ROS signaling cascade in regulation of seed dormancy, germination and seedling development. Plant Physiology and Biochemistry. PPB 207: 108352. https://doi.org/10.1016/j.plaphy.2024.108352

SIATL (2023) Simulador de Flujos de Agua de Cuencas Hidrográficas. https://antares.inegi.org.mx/. Fecha de consulta: Consultado 23 de marzo de 2023.

Sripathy KV, Groot SPC (2023) Seed development and maturation. In: Dadlani M, Yadava DK (eds) Seed science and technology. Springer. Singapore. pp. 17-38. https://doi.org/10.1007/978-981-19-5888-5_2

Trejo L, Soriano D, Romano-Grande E, Sánchez-Carmona B, Dávila-Navarro DE (2024) Diversity of reproductive characters, seed set, and viability of Agave seeds used for pulque production and their wild relatives in Tlaxcala, Mexico. Genetic Resources and Crop Evolution 71: 2877–2903. https://doi.org/10.1007/s10722-023-01803-5

Valbuena L, Vera M (2002) The effects of thermal scarification and seed storage on germination of four heathland species. Plant Ecology 161: 137–144. https://doi.org/10.1023/A:1020387819222

Vázquez-Yanes C, Orozco-Segovia A (1982) Seed germination of a tropical rain forest pioneer tree (Heliocarpus donnell-smithii) in response to diurnal fluctuation of temperature. Physiology Plantarum 56: 295-298. https://doi.org/10.1111/j.1399-3054.1982.tb00341.x

Villanueva-Castillo DM, Velasco-Velasco VA, Santos-Romero RBDL, Ruiz-Luna J, Rodríguez-Ortiz G (2021) Variación morfométrica en semillas de agaves silvestres de Oaxaca. Revista Mexicana de Ciencias Agrícolas 12(1): 155-162. https://doi.org/10.29312/remexca.v12i1.2426

Ya-Fei S, Shan-Heng S, Ying-Sha J, Jia L (2022) A global synthesis of fire effects on soil seed banks. Global Ecology and Conservation 36: e02132. https://doi.org/10.1016/j.gecco.2022.e02132

Yan D, Duermeyer L, Leoveanu C, Nambara E (2014) The functions of the endosperm during seed germination. In Plant and Cell Physiology 55(9): 1521–1533. https://doi.org/10.1093/pcp/pcu089

Zuloaga-Aguilar S, Briones O, Orozco-Segovia A (2011) Seed germination of montane forest species in response to ash, smoke and heat shock in Mexico. Acta Oecologica 37(3): 256–262. https://doi.org/10.1016/j.actao.2011.02.009

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2024-09-04

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SCIENTIFIC ARTICLE

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Ortiz-López, A., Velasco-Velasco, V. A., Martínez-Gutiérrez, G. A., Campos-Angeles, G. V., & Rodríguez-Ortiz, G. (2024). Germination potential of Dasylirion spp. as response to pre-germination thermal regimes: Germination potential of Dasylirion spp. Ecosistemas Y Recursos Agropecuarios, 11(3). https://doi.org/10.19136/era.a11n3.4005

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