Germination of Pinus maximartinezii seeds from two relict populations: effects of morphological attributes, seed origin, and pre-germination treatments

Authors

  • José Leonardo García-Rodríguez Campo Experimental Valle del Guadiana, INIFAP Author
  • José A. Sigala Campo Experimental Valle del Guadiana, INIFAP Author
  • Homero Sarmiento-López Campo Experimental Valle del Guadiana, INIFAP Author
  • María Gabriela Ramírez-Valadez Campo Experimental Valle del Guadiana, INIFAP Author
  • Julio César Ríos-Saucedo Campo Experimental Valle del Guadiana, INIFAP Author
  • Erickson Basave-Villalobos Campo Experimental Valle del Guadiana, INIFAP Author

DOI:

https://doi.org/10.2478/foecol-2026-0004

Keywords:

conservation, endemism, forest germplasm, physical dormancy, scarification

Abstract

Pinus maximartinezii is an endemic and endangered Mexican pinyon pine highly restricted, only two relict populations are currently known. Effective conservation of this species requires the development of reliable seedling propagation protocols, but germination of P. maximartinezii seeds is problematic, likely due to water-impermeable seed coats. Methods to enhance germination are therefore necessary, yet this aspect remains poorly understood and understudied. This study aimed to evaluate the effects of mechanical and chemical scarification treatments on seed germination, linking treatment effectiveness with seed morphological traits and origin to identify, in turn, the influence of these factors. Provenances differed in seed size and seed coat thickness, thereby affecting water imbibition and germination dynamics. Seeds from Juchipila (Zacatecas) had thinner seed coats (1.4 mm) and imbibed water more rapidly (0.10 g H2O g–1 h–1), and germinated readily without any treatment (71.7%). In contrast, seeds from La Muralla (Durango) had slightly thicker coats (1.5 mm), imbibed more slowly (0.07 g H2O g–1 h–1) and required scarification to improve their relative low germination percentage (59.1%). Findings highlight the relevance of seed morphological traits and origin in defining effective pre-germination protocols for P. maximartinezii.

References

Basave-Villalobos, E., Antúnez, P., Sigala-Rodríguez, J.Á., Fierros-Mateo, R., Navarro-Martínez, J., Calixto-Valencia, C.G., 2024. Rasgos morfológicos de semillas y germinación de Peltogyne mexicana (Fabaceae): única especie de Peltogyne en México [Seeds morphological traits and germination of Peltogyne mexicana (Fabaceae): unique Peltogyne species in Mexico]. Acta Botánica Mexicana, 131. https://doi.org/10.21829/abm131.2024.2208. (In Spanish). https://doi.org/10.21829/abm131.2024.2208

Baskin, C.C., Baskin, J.M., 2014. Seeds: ecology, biogeography, and, evolution of dormancy and germination. San Diego CA, USA: Academic Press. 1586 p.

Bewley, J.D., 1997. Seed germination and dormancy. The Plant Cell, 9 (7): 1055–1066. https://doi.org/10.1105/tpc.9.7.1055

Bewley, J.D., Bradford, K.J., Hilhorst, H.W., Nonogaki, H., 2013. Seeds: physiology of sevelopment, germination and dormancy. 3rd ed. New York, USA: Plenum Press. 392 p.

Calixto Valencia, C.G., Cetina Alcalá, V.M., Ramírez Herrera, C., López López, M.Á., Ángeles-Pérez, G., Equihua Martínez, A., Basave Villalobos, E., 2022. Características morfométricas, reproductivas y germinativas del germoplasma de Swietenia humilis Zucc. en Guerrero [Morphometric, reproductiveand germination characteristics of Swietenia humilis Zucc. germplasm from Guerrero State]. Revista Mexicana de Ciencias Forestales, 13 (72): 148–172. https://doi.org/10.29298/rmcf.v13i72.1250. (In Spanish). https://doi.org/10.29298/rmcf.v13i72.1250

FAO, 1991. Guía para la manipulación de semillas forestales con especial referencia a los trópicos [Guideto the handling of forest seeds with special reference to the tropics]. Roma, Italia: FAO/MONTES, DANIDA. (In Spanish).

Farjon, A., 2013. Pinus maximartinezii. The IUCN Red List of Threatened Species 2013: e.T30975A2799675. https://dx.doi.org/10.2305/IUCN.UK.2013-1.RLTS.T30975A2799675.en

Gernandt, D.S., Pérez-De La Rosa, J.A., 2014. Biodiversidad de Pinophyta (coníferas) en México [Biodiversity of Pinophyta (conifers) in Mexico]. Revista Mexicana de Biodiversidad, 85 (Suppl.19): 126–133. https://doi.org/10.7550/rmb.32195. (In Spanish). https://doi.org/10.7550/rmb.32195

González-Elizondo, M., González-Elizondo, M.S., Ruacho-González, L., Molina-Olvera, M., 2011. Pinus maximartinezii Rzed. (Pinaceae), primer registro para Durango, segunda localidad para la especie [Pinus maximartinezii Rzed. (Pinaceae), first record for Durango, second locality for the species]. Acta Botánica Mexicana, 96: 33–48. (In Spanish).

Guo, C., Shen, Y., Shi, F., 2018. Investigating seed dormancy in Pinus bungeana Zucc. ex Endl.: understanding the contributions of enclosing tissues and temperature on germination. Forests, 9 (7): 401. https://doi.org/10.3390/f9070401

Hernández-Anguiano, L., López-Upton, J., Ramírez-Herrera, C., Romero-Manzanares, A., 2018. Variación en germinación y vigor de semillas de Pinus cembroides y Pinus orizabensis [Variation in germination and vigor of Pinus cembroides and Pinus orizabensis seeds]. Agrociencia, 52 (8): 1161–1178. (In Spanish).

López-Mata, L., 2001. Proteins, amino acids and fatty acids composition of nuts from the Mexican endemic rarity, Pinus maximartinezii, and its conservation implications. Interciencia, 26: 606–610.

López-Mata, L., Galván-Escobedo, I., 2011. Extracción de semillas de Pinus maximartinezii y sus consecuencias poblacionales [Seed extraction of Pinus maximartinezii and its consequences for the population]. Biodiversitas, 98: 1–7. (In Spanish).

Luna-Cavazos, M., Romero-Manzanares, A., García-Moya, E., 2024. Variación morfológica en conos y semillas de dos especies piñoneras, en relación a un gradiente latitudinal del Altiplano Mexicano [Morphological variation in cones and seeds of two species of pinyon pines distributed in a latitudinal gradient of Mexican highlands]. Revista Bosque, 45 (3): 413–425. (In Spanish).

Meraz, G., Bonilla-Beas, R., 2000. Análisis y tratamientos pregerminativos en semillas de Pinus arizonica Engelm. y Pinus durangensis Mart. [Analysis and pre-germination treatments in Pinus arizonica Engelm. y Pinus durangensis Mart. Sedes]. Revista Chapingo Serie Ciencias Forestales y del Ambiente, 6:15–20. (In Spanish).

Nawrot-Chorabik, K., Osmenda, M., Słowiński, K., Latowski, D., Tabor, S., Woodward, S., 2021. Stratification, scarification and application of phytohormones promote dormancy breaking and germination of pelleted scots pine (Pinus sylvestris L.) seeds. Forests, 12 (5): 621. https://doi.org/10.3390/f12050621

Passini, M.-F., 1985. Structure et régénération des formations ligneuses à Pinus maximartinezii Rzed., Mexique [Structure and regeneration of woody formations of Pinus maximartinezii Rzed., Mexico]. Bulletin de la Société Botanique de France. Lettres Botaniques, 132: 327–339. (In Spanish).

Prieto-Ruíz, J.Á., Bustamante-García, V., López-Hernández, J.A., Méjia-Bojórquez, Monárrez-González, J.C., 2012. Germinación y desarrollo inicial de planta del género Pinus [Germination and early plant development of the genus Pinus]. In López-Hernández, J.A., Monárrez-González, J.C. (eds). Producción de planta forestal del templado-frío en condiciones protegidas. Durango, México: INIFAP. p. 25–50. (In Spanish).

Quiroz Vázquez, R.I., 2015. Características reproductivas y estructura de poblaciones de Pinus pinceana Gordon en el estado de Hidalgo [Reproductive characteristics and population structure of Pinus pinceana Gordon in the state of Hidalgo]. Doctoral thesis. Postgradual College. Mexico. 89 p. [cit. 2025-08-22]. (In Spanish).

Ramírez-Herrera, C., Beardmore, T., Loo, J., 2008. Overcoming dormancy of Pinus pinceana seeds. Seed Science and Technology, 36: 1–20.

Ramos-Font, M., González Rebollar, J., Robles Cruz, A., 2015. Endozoochorous dispersal of wild legumes: from seed recovery to field establishment. Ecosistemas, 24 (3): 14–21. https://doi.org/10.7818/ECOS.2015.24-3.03

Rolston, M.P., 1978. Water impermeable seed dormancy. The Botanical Review, 44: 365–396.

Romero-Saritama, J.M., 2016. Caracterización morfofisiológica de semillas de especies leñosas distribuidas en dos zonas secas presentes en el Sur del Ecuador [Morpho-physiological characterization of seeds from woody species distributed in two dry zones in southern Ecuador]. Ecosistemas, 25 (2): 93–100. https://doi.org/10.7818/ECOS.2016.25-2.12. (In Spanish). https://doi.org/10.7818/ECOS.2016.25-2.12

Ruiz-Carranza, L.D., Sigala-Rodríguez, J.Á., Alanís-Rodríguez, E., Molina-Guerra, V.M., Basave-Villalobos, E., 2024. Tratamientos que promueven la germinación de semillas de cinco especies leñosas del Matorral Espinoso Tamaulipeco con latencia física [Treatments that promote seeds germination of five woody species of the Tamaulipan Thornscrub with physical dormancy]. Polibotánica, 58:159–170. https://doi.org/10.18387/polibotanica.58.11. (In Spanish). https://doi.org/10.18387/polibotanica.58.11

Rzedowski, J., 1964. Una especie nueva de pino piñonero del Estado de Zacatecas (México) [A new species of pinyon pine from the state of Zacatecas (Mexico)]. Ciencia, 23: 17–20. (In Spanish).

Salazar, A., Ramírez, C., 2018. Mechanical scarification improves seed germination of Enterolobium cyclocarpum, a valuable neotropical tree. Seed Technology, 39 (1/2): 25–34.

Semarnat, 2010. Norma Oficial Mexicana NOM-059-SEMARNAT-2010, 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 [Official Mexican Standard NOM-059-SEMARNAT-2010, Environmental protection—Native species of wild flora and fauna of Mexico—Risk categories and specifications for their inclusion, exclusion, or change—List of species at risk]. México: SEMARNAT. (In Spanish).

Shen, X., Cho, M.-J., 2021. Factors affecting seed germination and establishment of an efficient germination method in sugar pine (Pinus lambertiana Dougl.). HortScience, 56 (3): 299–304. https://doi.org/10.21273/HORTSCI15562-20

Traveset, A., 1998. Effect of seed passage through vertebrate frugivores’ guts on germination: a review. Perspectives in Plant Ecology, Evolution and Systematics, 1: 151–190.

Upretee, P., Bandara, M.S., Tanino, K.K., 2024. The role of seed characteristics on water uptake preceding germination. Seeds, 3 (4): 559–574. https://doi.org/10.3390/seeds3040038

Valero-Galván, J., Reyna-González, M., Chico-Romero, P.A., Martínez-Ruiz, N.D.R., Núñez-Gastélum, J.A., Monroy-Sosa, A., Ruiz-May, E., Gonzalez Fernández, R., 2019. Seed characteristics and nutritional composition of pine nut from five populations of P. cembroides from the states of Hidalgo and Chihuahua, Mexico. Molecules, 24 (11): 2057. https://doi.org/10.3390/molecules24112057. (In Spanish). https://doi.org/10.3390/molecules24112057

Viveros Viveros, H., Hernández Palmeros, J.D., Velasco García, M.V., Robles Silva, R., Ruiz Montiel, C., Aparicio Rentería, A., Martínez Hernández, M.D.J., Hernández Villa, J., Hernández Hernández, M.L., 2015. Análisis de semilla, tratamientos pregerminativos de Enterolobium cyclocarpum (Jacq.) Griseb. y su crecimiento inicial [Enterolobium cyclocarpum (Jacq.) Griseb. seed analysis, pre-germination treatments and initial growth]. Revista Mexicana de Ciencias Forestales, 6 (30): 52–65. https://doi.org/10.29298/rmcf.v6i30.207. (In Spanish). https://doi.org/10.29298/rmcf.v6i30.207

Downloads

Published

2026-01-26

Issue

Vol. 53 No. 1 (2026)

Section

Articles

License

This journal provides immediate open access to its content under the Creative Commons BY-NC-ND 4.0 license. Authors who publish with this journal retain all copyrights except for commercial rights (transfer of commercial rights) and agree to the terms of the above-mentioned CC BY-NC-ND 4.0 license.