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Acta botánica mexicana

versión On-line ISSN 2448-7589versión impresa ISSN 0187-7151

Act. Bot. Mex  no.130 Pátzcuaro  2023  Epub 02-Jun-2023

https://doi.org/10.21829/abm130.2023.2177 

Artículos de investigación

Ricciocarpos natans (Marchantiophyta, Ricciaceae), new to Costa Rica, with a survey of its presence in Latin America

Ricciocarpos natans (Marchantiophyta, Ricciaceae), nueva para Costa Rica, con una revisión de su presencia en América Latina

Rafael Acuña Castillo1  2  6 
http://orcid.org/0000-0002-8568-8566

José Esteban Jiménez2  3 
http://orcid.org/0000-0002-8154-2156

Mario Alberto Blanco Coto1  2  4 
http://orcid.org/0000-0001-7369-5411

Luiz Eduardo Bezerra Silva5 
http://orcid.org/0000-0002-1586-1239

1Universidad de Costa Rica, Escuela de Biología, San Pedro de Montes de Oca, 11501-2060 San José, Costa Rica.

2Universidad de Costa Rica, Centro de Investigación en Biodiversidad y Ecología Tropical (CIBET), Herbario Luis A. Fournier Origgi, San Pedro de Montes de Oca, 11501-2060 San José, Costa Rica.

3University of Florida, Florida Museum of Natural History, and Department of Biology, University of Florida Herbarium, Gainesville 32611, Florida, USA.

4Universidad de Costa Rica, Jardín Botánico Lankester, 302-7050 Cartago, Costa Rica.

5Universidad de Costa Rica, Programa de Posgrado en Biología, San Pedro de Montes de Oca, 11501-2060 San José, Costa Rica.


Abstract:

Background and Aims:

Ricciocarpos natans is one of the few species of truly aquatic hepatics. It has a subcosmopolitan distribution and appears to be more common in temperate areas. The species has been considered to be very rare in Central America where it was known only from Panama. The objective of this study is to report the presence of this species in Costa Rica and to survey its current distribution in Latin America.

Methods:

We provide an overview of the distribution of the floating aquatic liverwort Ricciocarpos natans in Latin America based on literature, herbarium specimens and unequivocal photographic records across the region, as well as field work in Costa Rica.

Key results:

Ricciocarpos natans is reported as new for Costa Rica. We provide the most complete survey to date of the geographic distribution of the species in Latin America.

Conclusions:

Our survey shows that Ricciocarpos natans appears to be more common and widely distributed in the Neotropics than previously assumed. Its assumed rarity seems to be the result of insufficient collection efforts.

Key words: aquatic plants; geographic distribution; Neotropics; liverworts; wetlands

Resumen:

Antecedentes y Objetivos:

Ricciocarpos natans es una de las pocas especies de hepáticas verdaderamente acuáticas. Tiene una distribución subcosmopolita y parece ser más común en áreas templadas. La especie ha sido considerada muy rara en América Central, donde solo se conocía de Panamá. El objetivo de este estudio es reportar la presencia de esta especie en Costa Rica y revisar su distribución en América Latina.

Métodos:

Brindamos una descripción general de la distribución de la hepática acuática flotante Ricciocarpos natans en América Latina con base en la literatura, especímenes de herbario y registros fotográficos inequívocos en toda la región, así como trabajo de campo en Costa Rica.

Resultados clave:

Ricciocarpos natans se reporta como nueva para Costa Rica. Brindamos el estudio más completo hasta la fecha de la distribución geográfica de la especie en América Latina.

Conclusiones:

Nuestro estudio muestra que Ricciocarpos natans parece ser más común y más ampliamente distribuida en el Neotrópico de lo que se suponía anteriormente. Su supuesta rareza parece ser el resultado de esfuerzos de recolección insuficientes.

Palabras clave: distribución geográfica; hepáticas; humedales; Neotrópico; plantas acuáticas

Introduction

The freshwater wetlands constitute one of the most productive ecosystems on Earth (Keddy, 2010) and they play a major role in the livelihoods of millions of people worldwide (Gokce, 2018). Most of the embryophytes that dominate freshwater wetland ecosystems are vascular plants, even though strictly aquatic species represent just 1% of all vascular plant species (Chambers et al., 2008). Non-vascular embryophytes (Bryophytes sensu lato) are more scarce and usually less conspicuous. Although dependent on water availability to release their male gametes, there are relatively few bryophyte species that could be considered strictly aquatic, i.e., require to be submerged or floating in water for extended periods of time to complete their life cycles (Chambers et al., 2008). According to Cook (1999), only 0.4-0.5% of all Bryophytes sensu lato could be considered as strictly aquatic, although a larger number could be helophytic or rheophytic (e.g., Shevock et al., 2017; Gradstein et al., 2018), semi-aquatic (growing underwater temporarily) or facultatively aquatic (mostly terrestrial species with occasional populations that can survive submerged permanently, Gradstein et al., 2018). Among liverworts, Cook et al. (1974) and Cook (1999) mention that only three genera have strictly aquatic representatives.

Among the few strictly aquatic Marchantiophyta, Ricciocarpos Corda (sometimes spelled “Ricciocarpus”), a monotypic genus that includes only R. natans (L.) Corda, is one of the most widespread (Gradstein et al., 2001; Bischler-Causse et al., 2005) and easily recognizable (at least the free-floating forms). Albeit it can be locally abundant, we suspect that R. natans has been underreported in the Neotropics, probably due to its small size and usually inconspicuous nature (pers. obs.), and perhaps due to neglect of the habitat by plant collectors. In Latin America distributional data seem to indicate that the species has been most frequently collected in the area covering south and southeastern Brazil and northeastern Argentina (Bischler-Causse et al., 2005), with fewer records at lower latitudes (several in the Amazon basin and the Pantanal region). In the present study we report the presence of Ricciocarpos natans in Costa Rica for the first time and provide an overview of the distribution of this taxon in Latin America based on herbarium, literature, and photographic records.

Materials and Methods

Field work

Field work was carried out in freshwater wetlands near Estero Damas, in the Distrito Parrita, Cantón Parrita, in the central area of Puntarenas province, Costa Rica, at 9°31'44.4''N 84°15'52.7''W (datum WGS84) and 6 m of elevation. These wetlands span both sides of the Costanera Sur Highway (National Route 34) between the towns of Palo Seco and Damas. The annual precipitation averages ca. 3500 mm, and the average temperatures range between 22.7 oC for the lows and 31 oC for the highs. There is a short dry season that extends from January to March (IMN, 2008). According to Tosi (1969), the Tropical Moist Forest Life Zone is typical in the area. However, not counting the mangrove forests of the Damas and Palo Seco estuaries, little forest cover remains in the immediate vicinity, as most of the land around the wetlands has been cleared for pasture or oil palm plantations.

Plant thalli were collected by hand both from the water surface and immediately adjacent wet mud. These were placed in paper envelopes and dried at room temperature for ca. 1 week. A few additional living thalli were collected with water from the wetland, placed in ziplock plastic bags, and brought to cultivation. The specimens were examined using hand lenses (Five Elements, Jewelers Loupe with Twin Lens, Model MJ368212, China) and dissecting microscopes (Carl Zeiss, ZEISS Stemi 508 Greenough Stereo Microscope, Jena, Germany). In order to identify them, we consulted Gradstein et al. (2001), Bischler-Causse et al. (2005), Madriñán et al. (2017) and Gradstein (2021).

Geographic data and collections examined

We also collected distributional data of Ricciocarpos natans from Latin America from the literature (see results and discussion), GBIF.org - Global Biodiversity Information Facility (GBIF, 2022), as well as the online databases of the AAU, CEN, COL, F, HVASF, INPA, MEXU, MO, NY, R, RB, and UPCB herbaria (acronyms according to Thiers, 2022). These data were complemented with unequivocal photographic evidence from the citizen science iNaturalist.org website (iNaturalist, 2022a). Because plants of Ricciocarpos natans can grow on mud and look similar to some Riccia L. species, we focused on free floating plants, herbarium specimens, and literature records we could either see by ourselves or, if not, that were determined by experienced botanists (i.e., the authors of the treatments, see results) that are familiar with Ricciocarpos natans. All the specimens cited in “Examined herbarium material” were seen by us (as scanned specimens) and we added the name of the person who made the previous determination when explicitly stated in the specimen labels (if not stated we could not add it).

Results

Taxonomy

Ricciocarpos natans (L.) Corda in Opiz, Naturalientausch 12: 651. 1829.

Riccia natans L., Syst. Nat., ed. 10: 1339. 1759.

TYPE: (illustration in) Dillenius, Hist. Musc., ed. 1: 536. Lichen 18. Tab. LXXVIII, fig. 18: (OXF, 2022) (lectotype: OXF!, designated by Iamonico and Iberite, 2014).

Thallus more or less triangular, light green, sometimes dichotomously branched, forming rosettes; often two or four thalli (apparently derived from fragments of a single parental thallus) clumped together, attached to each other by their ventral scales; segments 3-6 mm wide, with a dorsal groove; ventral scales covering the whole underside of the thallus, dark brown, long-ligulate, to ca. 1 cm long, margins irregularly serrulate (Fig. 1).

Figure 1: Ricciocarpos natans (L.) Corda from Costa Rica (voucher: Acuña et al. 2555, USJ). A, B. thalli floating in their habitat. C, D. thalli taken out of the water to show the ventral scales, top and side views, respectively. 

Location and habitat in Costa Rica

The wetland where the Costa Rican Ricciocarpos natans specimens were found, is dominated by large populations of Cyperus giganteus Vahl and Oxycaryum cubense (Poepp. & Kunth) Palla in the most sun-exposed areas, and Heliconia marginata (Griggs) Pittier in areas closer to sparse tree cover. The wetland appears to be permanent, as even in the dry season it has standing water. The most abundant floating plant we found was an as-yet undetermined species of Azolla Lam. Other wetland plants found in this locality include Caperonia palustris (L.) A. St.-Hil., Eichhornia crassipes (Mart.) Solms, Heteranthera limosa (Sw.) Willd., Heteranthera spicata C. Presl, Persicaria acuminata (Kunth) M. Gómez and Salvinia sp.

We found relatively few thalli of Ricciocarpos natans (Fig. 1), most of which were floating in the less vegetated, open areas of the wetland, among the much more abundant Azolla sp. A few thalli, however, were found on wet mud, close to the waterline. Unlike the reddish Azolla, Ricciocarpos natans plants were bright green.

Material examined: COSTA RICA. Puntarenas, cantón Parrita, distrito Parrita, wetlands on the southern side of the Costanera Sur Highway, between Palo Seco and Damas, 9°31'44.4''N, 84°15'52.7''W (Datum WGS84), 6 m, 17.IX.2021, R. Acuña C. et al. 2555 (USJ).

Additional examined material: BRAZIL. Amazonas, município Manaus, Lago Amazônico, Lago de águas lênticas, erva aquática, 26.IX.2017, D. S. D. Jesus et al. 1 (INPA, determined by D. S. D. Jesus and L. O. Demarchi). Bahia, município Curaçá, Margem do Rio São Francisco, em frente à Pousada Recanto Campestre, 349 m, 24.VI.2016, J. A. Siqueira Filho 3736 (HVASF, determined by J. A. Siqueira Filho). Goiás, município Formosa, Margem direita do rio Bezerra, cerca de 1 km a Leste da Lagoa Perta Pé (área do Exército), 5.III.2002, G. Pereira-Silva et al. 6022 (CEN, determined by O. Yano). Mato Grosso do Sul, município Miranda, Río Miranda, Mata de Galeria, a beira do lago, 120 m, 28.VIII.1996, D. P. Costa et al. 3209 (RB, determined by D. C. Cargill). Paraná, município Pontal do Paraná, Rio Guaraguaçu, 25°45'51.9''S, 48°33'18.21''W, 25.IX.2017, E. S. Araujo and A. A. Padial 103 (UPCB, determined by E.S. Araujo). Pernambuco, município Cabrobó, Balsa, 8°33'44.0''S, 39°27'51.7''W, 28.I.2011, A. C. C. P. Silva et al. 70 (RB, determined by F. A. Ferreira). Rio de Janeiro, município Cabo Frio, IX.1881, C. A. W. Schwacke 3189 (RB, determined by D. C. Cargill). Rio Grande do Sul, município unknown, quinta prope oppidum Rio Grande, in paludibus (illegible), 4.XII.1892, C. A. M. Lindman B-133 (R-Bryophyta). Santa Catarina, município Jaguaruna, swamp, 28.II.1952, L. B. Smith and R. Reitz 5930 (R-Bryophyta). State not listed, Catalogus Geographicus Plantarum Brasilieae Tropicae, s.d., Burchell 7426 (NY). PARAGUAY. Concepción, Río Napegue, flotante en palmar inundable de Copernicia alba, 22°58'32.9''S, 57°43'38.5''W, 17.IX.1997, F. Mereles and M. Soloaga 7117 (F).

Selected records from iNaturalist

ARGENTINA. Buenos Aires, Partido Monte, San Miguel de Monte, 19.IX.2021, observation by RAP (iNaturalist, 2022b). Corrientes, Departamento San Martín, cerca de Yapeyú, 25.VII.2021, observation by Enzo Edgardo Ferreyra (iNaturalist, 2022c). La Pampa, Departamento Utracán, General Acha, 22.X.2021, observation by Daniel Óscar Molina (iNaturalist, 2022d).

BRAZIL. Acre, município Rio Branco, Área de Proteção Ambiental Lago do Amapá, 18.IX.2021, observation by Gabriel Fernando (iNaturalist, 2022e). Amazonas, município Manaus, Manaus, INPA, 18.VIII.2017, observation by Nate Hartley (iNaturalist, 2022f). Rio Grande do Sul, município Rio Grande, near Saco do Silveira, 31.X.2020, observation by Vinicius S. Domingues (iNaturalist, 2022g). São Paulo, município Mogi das Cruzes, Mogi das Cruces, wetlands between Colégio Mello Dante and Rio Tietê, 16.VI.2022, observation by Yoannis Domínguez (iNaturalist, 2022h)

CHILE. Valparaíso, Provincia Valparaíso, Humedal de Mantagua, 8.IV.2020, observation by Lorena Flores Toro (iNaturalist, 2022i).

COLOMBIA. Huila, municipio Pitalito, Humedal La Coneca, 30.XI.2021, observation by Jorge L. Peña (iNaturalist, 2022j).

ECUADOR. Sucumbíos, cantón Shushufindi, cerca de laguna Pilchicocha, 12.XII.2017, observation by Michael Hogan (iNaturalist, 2022k).

MEXICO. Querétaro, municipio Cadereyta de Montes, Jardín Botánico Regional de Cadereyta “Ing. Manuel González de Cosío”, 17.V.2021, observation by José Aranda Pineda (iNaturalist, 2022l).

PERU. Loreto, provincia Maynas, cerca del Área de Conservación Ambiental Garzal de Santa María de Fátima 11.VII.2018, observation by Ignacio Torres García (iNaturalist, 2022m).

URUGUAY. Rocha, cerca de Santa Isabel, 13.VIII.2020, observation by Ramiro Pereira Garbero (iNaturalist, 2022n).

Distribution of Ricciocarpos natans in Latin America

We found evidence that in Latin America this species has been collected previously in Mexico, Cuba, Panama, Venezuela, Colombia, Ecuador, Peru, Bolivia, Paraguay, Brazil, Uruguay, Argentina and Chile, at elevations ranging from sea level to ca. 2800 m (Bischler-Causse et al., 2005, with updates). Ours, the first record for R. natans in Costa Rica, is the first anywhere between Panama and Mexico (Fig. 2).

Figure 2: Distribution of Ricciocarpos natans (L.) Corda in Latin America based on a revision of the literature, observed herbarium specimens, unequivocal photographic records (iNaturalist, see text for details) and selected unverified specimens from Cuba, western Ecuador and northern Bolivia. 

A synthesis of the known distribution of Ricciocarpos natans in Latin America (Fig. 2) is presented hereafter.

WEST INDIES: so far, the species has been reported only for Cuba (Howe, 1923; Gradstein et al., 2001; Bischler-Causse et al., 2005; Gradstein, 2021). We were unable to find information about the exact localities where the species was collected, but it is likely that the specimen Wright 3964 (NY, 2023) could be the basis for Howe’s record for the island.

MEXICO: Bischler-Causse et al. (2005) and Mendoza-Ruiz (2008) mentioned the presence of this species in the states of Hidalgo, Jalisco, México, Morelos, San Luis Potosí and Tabasco. We also found evidence of its presence in Querétaro (iNaturalist, 2022l).

CENTRAL AMERICA: previously known from Panama (Stotler et al., 1998; Bischler-Causse et al., 2005) and now, from the Pacific slope of central Costa Rica. The authors of this paper have explored in detail many wetlands across Costa Rica, but were able to find the species only at one location (see above). The presence of the species in Costa Rica had not been reported before (e.g., Dauphin, 2005), although Dauphin et al. (1998) mentioned that its occurrence in the country was to be expected.

VENEZUELA: the presence of Ricciocarpos natans has been reported from the Orinoco basin in the states of Anzoátegui, Apure, and Cojedes (Rial and Lasso, 1998; Infante-Sánchez and Heras-Pérez, 2002; Rial, 2006).

COLOMBIA: although Gradstein and Uribe (2016) and Gradstein (2021) reported the species only from the Andes of Cundinamarca, Álvaro-Alba et al. (2011), Madriñán et al. (2017) and Rial (2018) mentioned its presence in the extensive lowlands of the Amazon and Orinoco basins in the departments of Caquetá, Guainía, Guaviare and Meta. We also found evidence of its presence in Huila (iNaturalist, 2022j).

ECUADOR: Terneus (2007) reported this species from the Amazon basin in the province of Sucumbíos. An additional record was recently posted online from the same province (iNaturalist, 2022k). Earlier, the specimens L. B. Holm-Nielsen & S. Jeppesen 70 and E. Terneus & E. Landolt 483 were collected in the province of Guayas (AAU, 2023). The species is lacking in the catalogues by León-Yánez et al. (2006) and Gradstein (2020).

PERU: the species has been reported so far only from the northeastern Amazon basin in the department of Loreto (Bischler-Causse et al., 2005).

BOLIVIA: Churchill et al. (2009) mentioned this species from the lowlands of the department of Santa Cruz. According to TROPICOS (2023), the species is also known from the department of Beni (Sanjinés 505, LPB, fide TROPICOS, 2023).

BRAZIL: according to Gradstein and Costa (2003), Bischler-Causse et al. (2005), Yano and Bordin (2017) and Gissi and Peralta (2022), Ricciocarpos natans is widely distributed in Brazil and found in the states of Amazonas, Bahia, Espírito Santo, Goiás, Mato Grosso, Mato Grosso do Sul, Pará, Paraná, Pernambuco, Rio de Janeiro, Rio Grande do Sul, Santa Catarina, and São Paulo. We also found evidence of its presence in Acre (iNaturalist, 2022e).

PARAGUAY: Mereles et al. (2015) mentioned this species for the departments of Alto Paraguay, Boquerón, Ñeembucú and Presidente Hayes. However, the only specimen we were able to examine comes from Concepción.

ARGENTINA: Bischler-Causse et al. (2005), Hässel de Menéndez and Rubies (2009) and Fuertes and Manzano (2017) included the provinces of Buenos Aires, Corrientes, Entre Ríos, Formosa and La Rioja as part of the range of Ricciocarpos natans. We also found evidence for its presence in La Pampa (iNaturalist, 2022d).

URUGUAY: Bischler-Causse et al. (2005) mentioned the species for San José and mapped it for other three departments (Fig. 83 in Bischler-Causse et al., 2005), including Canelones. We also found evidence of its presence in Rocha (iNaturalist, 2022n).

CHILE: Rodríguez (1977), Bischler-Causse et al. (2005) and Cuvertino et al. (2005) reported the species from the regions of Araucanía, Biobío, Maule and Valparaíso.

We were unable to find any record or evidence of the presence of Ricciocarpos natans in most of the West Indies (with the exception of Cuba), the Guianas and Central America north of Costa Rica.

Discussion

Ricciocarpos natans is a very distinctive plant and it could be confused reasonably only with Riccia, the much more species-rich and the other known genus in Ricciaceae. However, as Gradstein et al. (2001), Bischler-Causse et al. (2005), Madriñán et al. (2017) and Gradstein (2021) indicate, Ricciocarpos specimens are usually floating on water, unlike Riccia that are usually terrestrial. We also noticed that the specimens we collected had abundant, long, and dense ventral scales (Fig. 1); with the help of a dissecting microscope, we observed that these ventral scales were long-ligulate (unlike the much shorter scales of Riccia) and with serrulate margins (a diagnostic characteristic of this taxon), important traits that Bischler-Causse et al. (2005) mention as differences between both genera of Ricciaceae. According to these authors, the plants are monoecious with the gametangia and sporophytes in the dorsal groove.

Ricciocarpos natans is widely distributed in the temperate zones of both hemispheres (Gradstein et al., 2001), but appears to be more scattered in the tropical areas. Although previous works, such as Gradstein et al. (2001), Bischler-Causse et al. (2005), Terneus (2007), Mereles et al. (2015), Madriñán et al. (2017) and Gradstein (2021), show the species is widely distributed in Latin America and could be found from sea level to almost 3000 m a.s.l., this paper demonstrated that the current number of records from Latin American has increased considerably since the study by Bischler-Causse et al. (2005). However, the quantity of herbarium specimens and observations in most countries of the region remain very low and populations of Ricciocarpos natans seem to be often far apart from each other. The species is usually sterile and is rarely seen with sporophytes (Bischler-Causse et al., 2005).

Although no abundance estimates for these plants in Latin America were found, we suggest that the apparent localized distribution pattern and scarcity in the tropical regions of Latin America could be an artifact from undercollection (the plants being quite small and usually not occurring in large groups, although there are exceptions: iNaturalist, 2022f). Nevertheless, we suspect that other factors may also be at play regarding this apparent (or real) rarity, but so far, no detailed systematic study in Latin America has been made to determine which ecological factors (biotic and abiotic) could play a role affecting the abundance of Ricciocarpos natans. This species is also considered scarce yet widely distributed across Africa (Blockeel et al., 2008), a continent that covers a similar latitudinal range as Latin America. Gradstein (2021) mentions that this species can be found “scattered at high elevations in the tropics”; however, most of the specimens we examined, and most records in both the literature and consulted databases, come from low elevation areas under 500 m a.s.l., in particular from the Orinoco and Amazon basins and the Pantanal region of Brazil. Our survey also demonstrates that, although still scattered, Ricciocarpos natans could be more common than assumed in previous works. However, it is puzzling how vast areas of seemingly potentially suitable habitats in the region remain devoid of this species (as our experience in Costa Rica could suggest, where only a single population has been located).

Although Costa Rica is considered one of the best explored tropical countries botanically, new occurrence records are to be expected for members of the aquatic flora that are known both to the north and south of the country, but that have eluded previous detection. As it has been shown (Crow et al., 1987; Blanco and Jiménez, 2019; Acuña-Castillo et al., 2021, and the present contribution), some new records were from poorly collected wetland localities that may be considered “less spectacular” than Palo Verde in Guanacaste, Caño Negro in Alajuela and Tortuguero in Limón, underlining the importance of also inventorying small wetlands.

Acknowledgements

We dedicate this contribution to María Isabel Morales Zürcher, professor emerita from the University of Costa Rica, who dedicated most of her academic life to the study of bryology in Costa Rica. This is a contribution from the research project “Guía de las plantas de los humedales de Costa Rica” (C0-255) registered in the Vicerrectoría de Investigación, Universidad de Costa Rica. We want to acknowledge the very valuable comments made by the reviewers of this paper. Eduardo Chacón provided help with the map design.

Literature cited

AAU. 2023. Ricciocarpus (sic) natans (L.) Corda. AAU Herbarium Database. https://www.aubot.dk/search_results.php?collector=&number=&number_min=&number_max=&sp_set=all&country=&family=&identification=Riccio&typeOf=&order=collectorReverse&order_dir=ASC&search_log=true&Submit=search (consulted March, 2023). [ Links ]

Acuña-Castillo, R., J. E. Jiménez, L. E. Bezerra-Silva, J. San Gil-León and M. A. Blanco. 2021. Notes on the distribution of Brasenia schreberi (Cabombaceae) in the Neotropics, with a new country record for Costa Rica. Darwiniana, nueva serie 9(2): 364-374. DOI: https://doi.org/10.14522/darwiniana.2021.92.988 [ Links ]

Álvaro-Alba, W., D. Cárdenas and M. Pinzón. 2011. Musgos, líquenes y hepáticas en la Amazonia. Revista Colombia Amazónica 4: 56-76. [ Links ]

Bischler-Causse, H., S. R. Gradstein, S. Jovet-Ast, D. G. Long and N. Salazar-Allen. 2005. Marchantiidae. Flora Neotropica 97: 1-262. [ Links ]

Blanco, M. A. and J. E. Jiménez . 2019. Duckweeds (Araceae: Lemnoideae) growing on wet, vertical rocks behind a waterfall in Costa Rica, with a new country record of Wolffiella oblonga (Phil.) Hegelm. Adansonia 41(1): 193-200. DOI: https://doi.org/10.5252/adansonia2019v41a15 [ Links ]

Blockeel, T. L., G. Abay, V. A. Bakalin, H. Bednarek-Ochyra, R. Ochyra, B. Çetin, B. Cykowska, E. Fuertes, H. Hespanhol, D. T. Holyoak, Z. Hradílek, T. Keçeli, H. Kürschner, J. Larraín, D. G. Long , G. Parolly, J. Piątek, M. Piątek, S. Rams, R. M. Ros, A. Séneca, C. Sérgio, Z. Soldaán, S. Ştefanuţ, G. Uyar, J. Váňa and T. Y. Özlem. 2008. New national and regional bryophyte records, 19. Journal of Bryology 30(3): 231-237. DOI: https://doi.org/10.1179/174328208X300688 [ Links ]

Chambers, P. A. P. Lacoul, K. J. Murphy and S. M. Thomaz. 2008. Global diversity of aquatic macrophytes in freshwater. In: Balian, E. V., C. Lévêque, H. Segers and K. Martens (eds.) Freshwater Animal Diversity Assessment. Developments in Hydrobiology, Vol. 198. Springer. Dordrecht, Holland. Pp. 9-26. DOI: https://doi.org/10.1007/978-1-4020-8259-7_2 [ Links ]

Churchill, S. P., C. Aldana and N. S. S. Asturizaga. 2009. Catálogo de las briófitas de Bolivia: diversidad, distribución y ecología. Missouri Botanical Garden. St. Louis, USA. 51 pp. [ Links ]

Cook, C. D. K. 1999. The number and kinds of embryo-bearing plants which have become aquatic: a survey. Perspectives in Plant Ecology, Evolution and Systematics 2(1): 79-102. DOI: https://doi.org/10.1078/1433-8319-00066 [ Links ]

Cook, C. D., B. J. Gut, E. M. Rix, J. Schneller and M. Seitz. 1974. Water Plants of the World. Dr. J. W. Junk b. v. Publishers. The Hague, The Netherlands. 561 pp. [ Links ]

Crow, G. E., D. I. Rivera and C. Charpentier. 1987. Aquatic vascular plants of two Costa Rican ponds. Selbyana 10: 31-35. [ Links ]

Cuvertino, J., G. Rojas, E. Hauenstein-Barra, F. Peña-Cortés and M. González-Arratia. 2005. Ricciocarpus (sic.) natans (L.) Corda (Marchantiophyta-Ricciaceae), en lagunas costeras del centro-sur de Chile. Noticiario Mensual - Museo Nacional de Historia Natural 355: 16-18. [ Links ]

Dauphin, G. 2005. Catalogue of Costa Rican Hepaticae and Anthocerotae. Bryophyte Diversity and Evolution 26: 141-218. DOI: https://doi.org/10.11646/bde.26.1.17 [ Links ]

Dauphin, G., S. R. Gradstein , A. Bernecker-Lücking and M. I. Morales. 1998. Additions to the hepatic flora of Costa Rica II. Lindbergia 23(2): 74-80. [ Links ]

Fuertes, E. and S. Manzano. 2017. New and interesting records of Argentinian Ricciaceae (Marchantiophyta) and hornworts (Anthocerotophyta). Cryptogamie, Bryologie 38(2): 213-222. DOI: https://doi.org/10.7872/cryb/v38.iss2.2017.213 [ Links ]

GBIF. 2022. Global Biodiversity Information Facility Occurrence Download. GBIF.org. Copenhagen, Denmark. DOI: https://doi.org/10.15468/dl.schut9Links ]

Gissi, D. S. and D. F. Peralta. 2022. Ricciaceae in Flora e Funga do Brasil. Jardim Botânico do Rio de Janeiro. Rio de Janeiro, Brazil. https://floradobrasil.jbrj.gov.br/FB97956 (consulted June, 2022). [ Links ]

Gokce, D. 2018. Introductory chapter: Wetland importance and management. In: Gokce, D. (ed.). Wetlands management-Assessing risk and sustainable solutions. IntechOpen. London, UK. Pp. 3-10. DOI: https://doi.org/10.5772/intechopen.82456 [ Links ]

Gradstein, S. R. 2020. Checklist of the Liverworts and Hornworts of Ecuador. Frahmia 17: 1-40. [ Links ]

Gradstein, S. R. 2021. The liverworts and hornworts of Colombia and Ecuador. Memoirs of the New York Botanical Garden 121. Springer Cham. Göttingen, Germany. 723 pp. [ Links ]

Gradstein, S. R. and D. P. da Costa. 2003. The Hepaticae and Anthocerotae of Brazil. Memoirs of the New York Botanical Garden 87. New York Botanical Garden Press. New York, USA. 318 pp. [ Links ]

Gradstein, S. R. and J. Uribe M. 2016. Ricciocarpos natans (L.) Corda. In: Bernal, R., S. R. Gradstein and M. Celis (eds.). 2015. Catálogo de plantas y líquenes de Colombia. Instituto de Ciencias Naturales, Universidad Nacional de Colombia, Bogotá. http://catalogoplantasdecolombia.unal.edu.co (consulted March, 2023). [ Links ]

Gradstein, S. R., S. P. Churchill and N. Salazar-Allen . 2001. Guide to the Bryophytes of Tropical America. Memoirs of the New York Botanical Garden 86. New York Botanical Garden Press. New York, USA. viii+577 pp. [ Links ]

Gradstein, R., A. Vanderpoorten, G. van Reenen and A. Cleef. 2018. Mass occurrence of the liverwort Herbertus sendtneri in a glacial lake in the Andes of Colombia. Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales 42(164): 221-229. DOI: https://doi.org/10.18257/raccefyn.666 [ Links ]

Hässel de Menéndez, G. G. and M. F. Rubies. 2009. Catalogue of Marchantiophyta and Anthocerotophyta of southern South America. Nova Hedwigia 134. Stuttgart, Germany. 672 pp. [ Links ]

Howe, M. A. 1923. Ricciaceae. North American Flora 14: 11-27. [ Links ]

Iamonico, D. and M. Iberite. 2014. Lectotypification of the Linnaean names Riccia fluitans and R. natans (Ricciaceae). Taxon 63(2): 394-395. DOI: https://doi.org/10.12705/632.9 [ Links ]

IMN. 2008. Clima, variabilidad y cambio climático en Costa Rica. Segunda Comunicación Nacional. Instituto Meteorológico Nacional. San José, Costa Rica. 75 pp. [ Links ]

iNaturalist. 2022a. Web application. iNaturalist. California Academy of Sciences and National Geographic Society. http://www.inaturalist.org (consulted December, 2022). [ Links ]

iNaturalist. 2022b. Ricciocarpos natans, observation 95773580. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/95773580 (consulted December, 2022). [ Links ]

iNaturalist. 2022c. Ricciocarpos natans, observation 88616133. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/88616133 (consulted December, 2022). [ Links ]

iNaturalist. 2022d. Ricciocarpos natans, observation 99777139. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/99777139 (consulted December, 2022). [ Links ]

iNaturalist. 2022e. Ricciocarpos natans, observation 95311249. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/95311249 (consulted December, 2022). [ Links ]

iNaturalist. 2022f. Ricciocarpos natans, observation 38554962. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/38554962 (consulted December, 2022). [ Links ]

iNaturalist. 2022g. Ricciocarpos natans, observation 131277475. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/131277475 (consulted December, 2022). [ Links ]

iNaturalist. 2022h. Ricciocarpos natans, observation 122078152. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/122078152 (consulted December, 2022). [ Links ]

iNaturalist. 2022i. Ricciocarpos natans, observation 42079338. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/42079338 (consulted December, 2022). [ Links ]

iNaturalist. 2022j. Ricciocarpos natans, observation 136612907. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/136612907 (consulted December, 2022). [ Links ]

iNaturalist. 2022k. Ricciocarpos natans, observation 9814950. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/9814950 (consulted December, 2022). [ Links ]

iNaturalist. 2022l. Ricciocarpos natans, observation 79360403. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/79360403 (consulted December, 2022). [ Links ]

iNaturalist. 2022m. Ricciocarpos natans, observation 14333494. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/14333494 (consulted December, 2022). [ Links ]

iNaturalist. 2022n. Ricciocarpos natans, observation 57300525. iNaturalist. California Academy of Sciences and National Geographic Society. https://www.inaturalist.org/observations/57300525 (consulted December, 2022). [ Links ]

Infante-Sánchez, M. and P. Heras Pérez. 2002. Notes on Venezuelan Ricciaceae (Marchantiophyta). Bryophyte Diversity and Evolution 21: 93-95. DOI: https://doi.org/10.11646/BDE.21.1.14 [ Links ]

Keddy, P. A. 2010. Wetland ecology: principles and conservation. Ed. 2. Cambridge University Press. Cambridge, UK. 514 pp. [ Links ]

León-Yánez, S., S. R. Gradstein and C. Wegner. 2006. Catálogo de Hepáticas (Marchantiophyta) y Antoceros (Anthocerothophyta) del Ecuador. Herbario QCA, Pontificia Universidad Católica del Ecuador. Quito, Ecuador. [ Links ]

Madriñán, S., A. Rial, A. M. Bedoya and M. Fernández. 2017. Plantas acuáticas de la Orinoquia colombiana. Universidad de los Andes. Bogotá, Colombia. 654 pp. [ Links ]

Mendoza-Ruiz, A. 2008. Ricciocarpus (sic.) natans (Marchantiophyta), una hepática acuática en México. ContactoS 70: 67-70. [ Links ]

Mereles, F., J. E. Elsam, G. Céspedes, M. C. Peña-Chocarro and R. D. Arrúa. 2015. Plantas Acuáticas y Palustres del Paraguay. Rojasiana Serie Especial. San Lorenzo, Paraguay. 236 pp. [ Links ]

NY. 2023. Ricciocarpos natans (L.) Corda. New York Botanical Garden, C. V. Starr Virtual Herbarium. https://sweetgum.nybg.org/science/vh/specimen-details/?irn=585114 (consulted March, 2023). [ Links ]

OXF. 2022. Historia Muscorum: Ricciocarpus (sic) natans. Herbaria of the University of Oxford. https://herbaria.plants.ox.ac.uk/bol/MUSCORUM/image/HM-sheet_167.jpg/Zoom?fpi=1 (consulted November, 2022). [ Links ]

Rial, A. 2006. Un índice de evaluación de la vegetación con fines de conservación en áreas privadas de los Llanos del Orinoco, Venezuela. Interciencia 31: 1-2. [ Links ]

Rial, A. 2018. Nuevos registros de plantas acuáticas para la región Guayana y notas sobre las islas flotantes en el río Guaviare, Guainía, Colombia. Biota Colombiana 19: 191-204. DOI: https://doi.org/10.21068/c2018.v19s1a13 [ Links ]

Rial, A. and C. Lasso. 1998. Ricciocarpos natans (L.) Corda (Ricciaceae) in Venezuela: taxonomical and habitat observations. Sociedad de Ciencias Naturales La Salle 458(149): 85-88. DOI: https://doi.org/10.13140/RG.2.2.32133.45285 [ Links ]

Rodríguez, R. 1977. Sobre la presencia de Ricciocarpus (sic) natans (L.) Corda en la provincia de Concepción, Chile. Boletín de la Sociedad de Biología de Concepción 51: 299-300. [ Links ]

Shevock, J. R., W.-Z. Ma and H. Akiyama. 2017. Diversity of the rheophytic condition in bryophytes: field observations from multiple continents. Bryophyte Diversity and Evolution 39(1): 75-93. DOI: https://doi.org/10.11646/bde.39.1.12 [ Links ]

Stotler, R., N. Salazar Allen, S. R. Gradstein , W. McGuinness, A. Whittemore and C. Chung. 1998. A Checklist of the Hepatics and Anthocerotes of Panamá. Bryophyte Diversity and Evolution 15(1): 167-195. DOI: https://doi.org/10.11646/bde.15.1.14 [ Links ]

Terneus, E. 2007. Las plantas acuáticas en el sistema lacustre-riberino Lagartococha, reserva de producción faunística Cuyabeno, Ecuador.Actualidades Biológicas 29(86): 97-106. DOI: https://doi.org/10.17533/udea.acbi.329376 [ Links ]

Thiers, B. 2022. Index Herbariorum, A global directory of public herbaria and associated staff. New York Botanical Garden. New York, USA. http://sweetgum.nybg.org/science/ih/ (consulted June, 2022). [ Links ]

Tosi, J. A. 1969. Mapa ecológico, República de Costa Rica: según la clasificación de zonas de vida del mundo de L.R. Holdridge. Instituto Geográfico Nacional. San José, Costa Rica. [ Links ]

TROPICOS. 2023. Collection Adriana Sanjinés - 505. tropicos.org. Missouri Botanical Garden. https://tropicos.org/collection/1797564 (consulted March, 2023). [ Links ]

Yano, O. and L. Bordin. 2017. Ampliação do conhecimento sobre a distribuição geográfica de espécies de Briófitas no Brasil. Boletín de la Sociedad Argentina de Botánica 52(2): 383-392. DOI: https://doi.org/10.31055/1851.2372.v52.n2.17453 [ Links ]

Author contributions

RAC, JEJ and LEBS carried out the field studies. RAC conceived the study and compiled the distributional information about the species. JEJ prepared figure 1. LEBS prepared figure 2. RAC and MAB compiled the bibliography. RAC wrote the manuscript with contributions from all the authors. All authors contributed to the discussion, revision and final approval of the manuscript.

Funding

Funding was provided by the Vicerrectoría de Investigación, Universidad de Costa Rica. Additional sponsorship was provided by Myrna Stewart and Amanda Bennett.

Received: February 03, 2023; Revised: February 27, 2023; Accepted: March 08, 2023; Published: March 22, 2023

6Author for correspondence: rafael.acuna_cast@ucr.ac.cr

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