Palynological study of the Lycophytes (Lycopodiopsida) from the Sierras Pampeanas centrales of Argentina

Authors

  • C. Cecilia Macluf Laboratorio de Anatomía Comparada, Conservación y Propagación de Embriofitas “Dr. Elías R. de la Sota” (LACPE), Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, La Plata, Argentina https://orcid.org/0000-0002-7608-4154
  • Marcelo D. Arana Instituto Criptogámico, Área Botánica, Fundación Miguel Lillo, San Miguel de Tucumán, Tucumán, Argentina. Grupo GIVE, Departamento de Ciencias Naturales, Facultad de Ciencias Exactas, Físico-Químicas y Naturales, Instituto ICBIA (UNRC-CONICET), Universidad Nacional de Río Cuarto, Río Cuarto, Córdoba, Argentina https://orcid.org/0000-0001-7921-6186
  • Gabriela E. Giudice Laboratorio de Anatomía Comparada, Conservación y Propagación de Embriofitas “Dr. Elías R. de la Sota” (LACPE), Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, La Plata, Argentina https://orcid.org/0000-0003-1352-4009
  • M. Lujan Luna Laboratorio de Anatomía Comparada, Conservación y Propagación de Embriofitas “Dr. Elías R. de la Sota” (LACPE), Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, La Plata, Argentina https://orcid.org/0000-0001-7025-782X

DOI:

https://doi.org/10.31055/1851.2372.v59.n3.44725

Keywords:

Argentina, lycophytes, morphology, spores, systematics

Abstract

Background and aims: The Sierras Pampeanas Centrales of Argentina constitute the fourth centre of diversity of lycophytes and ferns in the Cono Sur, where representatives of four families of lycophytes live: Huperziaceae, Lycopodiaceae, Isoetaceae and Selaginellaceae. The aim of this work is to provide data of the morphology of their spores observed with optical and scanning electron microscopes, as a contribution to the taxonomy and conservation.

M&M: The materials were analysed without prior chemical treatment and photographic records were obtained with both observation equipments.

Results: The morphological diagnostic features of the spores are presented. The Huperziaceae and Lycopodiaceae are isosporous with trilete spores. Huperziaceae presents foveolated or fossulated spores, while Lycopodiaceae spores are reticulate, scabrate and baculate. In Isoetes hieronymi (heterosporate), the microspores are monolete with echinate ornamentation, while the megaspores are trilete, with reticulate ornamentation. The Selaginellaceae, all heterosporate, produce trilete microspores and megaspores, both with varied ornamentation.

Conclusions: Spore characteristics provide relevant information for regional floristic studies as well as for taxonomic assignments, both of extant flora and fossil records. Also, for studies of the composition of soil spore banks as a tool for the conservation of local floristic biodiversity.

References

ARANA, M., M. PONCE & N. VISCHI. 2004. Sinopsis de los helechos y grupos relacionados (Pteridophyta) de la provincia de Córdoba, Argentina. Bol. Soc. Argent. Bot. 39: 89-114.

ARANA, M. D & C. A. BIANCO. 2011. Helechos y licofitas del centro de la Argentina. Editorial UNRC, Río Cuarto. https://www.unrc.edu.ar/unrc/digtal/Helechos_y_Licofitas_del_centro_de_la_Argentina.pdf

ARANA, M. D., J. J. MORRONE, M. PONCE & A. J. OGGERO. 2011. Licofitas (Equisetopsida: Lycopodiidae) de las sierras centrales de Argentina: un enfoque Panbiogeográfico. Gayana Bot. 68: 14- 21.

ARANA, M. D., J. J. MORRONE, M. M. PONCE & A. J. OGGERO. 2013. Patrones biogeográficos de los helechos de las sierras de Córdoba (Argentina) y sus implicancias en la conservación. Gayana Bot. 70: 357-376. http://dx.doi.org/10.4067/S0717-66432013000200013

ARANA, M. D., NATALE, E., OGGERO, A., FERRETI, N., …, & MORRONE, J. J. 2021. Esquema biogeográfico de la República Argentina. Opera lilloana 56: 1-240.

BATEMAN, R. M., W. A. DIMICHELE & D. A. WILLARD. 1992. Experimental cladistic analysis of anatomically preserved arborescent Lycopsids from the Carboniferous of Euramerica: An essay on paleobotanical phylogenetics. Ann. Missouri Bot. Gard. 79: 500-559.

BERRUETA, P. C., M. L. LUNA, G. E. GIUDICE & M. M. PONCE. 2021. Secrets beneath the soil: recovery of fern spores as a strategy of biodiversity conservation in Punta Lara Nature Reserve (PLNR), Argentina. Rodriguésia 72: e00512019.

DI PASQUO, M., E. RODRÍGUEZ, N. NUÑEZ OTAÑO, N. MUÑOZ & L. SILVESTRI. 2016. Esporas de helechos (monilofitas) y licofitas presentes en el Parque Nacional El Palmar (Entre Ríos, Argentina). Bol. Soc. Argent. Bot. 51: 1-32.

DYER, A. F. & S. LINDSAY. 1992. Soil spore banks of temperate ferns. Amer. Fern J. 82: 89-123.

FERREIRA, T. & W. S. RASBAND. 2012. ImageJ User Guide. Version IJ 1.46r. Disponible en: https://imagej.net/ij/docs/guide/

IBARS, A. M. & E. ESTRELLES. 2012. Recent developments in Ex Situ and In Situ conservation of ferns. Fern Gaz. 19: 67-86.

LELLINGER, D. B. 2002. A modern Multilingual Glossary for taxonomic Pteridology. Pteridologia 3: 1-263.

MACLUF, C. C., M. A. MORBELLI & G. E. GIUDICE. 2006. Microspore Morphology of Isoetes (Lycophyta) species from Southern South America. Bot. Rev. 72: 121-134.

MACLUF, C. C., M. A. MORBELLI & G. E. GIUDICE. 2006. Microspore Morphology of Isoetes species (Lycophyta) from Southern South America. Part II. TEM analysis of some selected types. Bot. Rev. 72: 135-152.

MACLUF, C. C. 2012. Análisis morfológico, palinológico y sistemático de las Isoëtales (Lycophyta) en el Cono Sur de América Meridional. Tesis de Doctorado. Universidad Nacional de La Plata, Argentina.

MARTÍNEZ, G., ARANA, M. D., OGGERO, A. J. & NATALE, E. S. 2017. Biogeographical relationships and new regionalization of high-altitude grasslands and woodlands of the central Pampean ranges (Argentina), based on vascular plants and vertebrates. Austral. Syst. Bot. 29: 473-488. http://dx.doi.org/10.1071/SB16046

MORBELLI, M. A. 1977. Esporas de las especies argentinas de Selaginella (Selaginellaceae-Pteridophyta). Obra del Centenario del Museo de La Plata Tomo III: 121-150.

MORBELLI, M. A., J. R. ROWLEY & D. CLAUGHER. 2001. Spore Wall structure in Selaginella (Lycophyta) species growing in Argentina. Bol. Soc. Argent. Bot. 36: 315-368.

PAUL, S., K. DIXON & B. MILLER. 2014. The persistence and germination of fern spores in fire-prone, semi-arid environments. Austral. J. Bot. 62: 518-527.

PPG I (The Pteridophyte Phylogeny Group). 2016. A community-derived classification for extant lycophytes and ferns. J. Syst. Evol. 54: 563-603. https://doi.org/10.1111/jse.12229

RAMÍREZ-TREJO, M. R.; B. PÉREZ-GARCÍA & A. OROZCO-SEGOVIA. 2004. Analysis of fern spore banks from the soil of three vegetation types in the central region of Mexico. Amer. J. Bot. 91: 682-688.

RAMOS GIACOSA, J. P., M. A. MORBELLI, G. E.GIUDICE & D. A. GORRER. 2016. Spore morphology and wall ultrastructure of Lycopodiaceae from northwest Argentina. Rev. Palaeobot. Palynol. 225: 84-94.

RANAL, M. A. 2003. Soil spore bank of ferns in a gallery forest of the Ecological Station of Panga, Uberlândia, MG, Brazil. Amer. Fern J. 93: 97-116.

RINCON BARÓN, E. J., C. H. ROLLERI & L. PASSARELLI. 2014. Esporogénesis, esporodermo y ornamentación de esporas maduras en Lycopodiaceae. Rev. Biol. Trop. 62:1161-1195.

ROLLERI, C. H. 1971. Anatomía y morfología de las especies de Lycopodium (Lycopodiaceae: Pteridophyta) del noroeste de Argentina y sus aplicaciones taxonómicas. Tesis de Doctorado. Universidad Nacional de La Plata, Argentina.

THIERS, B. 2024. Index Herbariorum: A Global Directory of Public Herbaria and Associated Staff. New York Botanical Garden’s Virtual Herbarium [online]. Disponible en: http://sweetgum.nybg.org/ih/ [Acceso: 20 Febrero 2024].

TRYON, A. F. & B. LUGARDON. 1991. Spores of the Pteridophyta. Surface, Wall structure and diversity based on Electron Microscope Studies. Springer-Verlag, New York.

WESTSTRAND, S. & P. KORALL. 2016a. Phylogeny of Selaginellaceae: there is value in morphology after all. Am. J. Bot. 103: 2136e2159.

WESTSTRAND, S. & P. KORALL. 2016b. Subgeneric classification of Selaginella (Selaginellaceae). Am. J. Bot. 103: 2160e2169.

WIKSTROM, N. & P. KENRICK. 2001. Evolution of Lycopodiaceae (Lycopsida): Estimating divergence times from rbcL sequences by use of nonparametric rate smoothing. Mol. Phylogenet. Evol. 19: 177-186.

ZHANG, L.-B. & X.-M. ZHOU. 2022. A new classification of Lycopodiales based on molecular phylogenetics, morphology, and spore ornamentation. Indian Fern J. 38: 125e136.

ZHOU, X.-M. & L.-B. ZHANG. 2015. A classification of Selaginella (Selaginellaceae) based on molecular (chloroplast and nuclear), macromorphological, and spore features. Taxon 64: 1117e1140.

https://doi.org/10.12705/646.2

ZHOU, X.-M. & L.-B. ZHANG. 2023. Phylogeny, character evolution, and classification of Selaginellaceae (lycophytes). Plant Divers. 45: 630e684.

Published

2024-09-30

How to Cite

“Palynological Study of the Lycophytes (Lycopodiopsida) from the Sierras Pampeanas Centrales of Argentina”. 2024. Boletín De La Sociedad Argentina De Botánica (Journal of the Argentine Botanical Society 59 (3). https://doi.org/10.31055/1851.2372.v59.n3.44725.

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