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Este estudio analiza la cultura in vitro de Anogramma chaerophylla, un helecho de la familia Pteridaceae. El objetivo es evaluar las condiciones para la germinación in vitro de esporas y analizar su ciclo reproductivo. Se descubrió que las esporas germinan después de seis días y el protalio adquiere una forma asimétrica espátula-shaped a las dos semanas. Los esporofitos se desarrollan solo en asociación con los tubérculos y durante el cultivo en vasos de plástico, se originó una segunda generación de protalios. La técnica de cultivo in vitro es adecuada para la propagación de A. chaerophylla como estrategia de conservación ex situ.
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Bol. Soc. Argent. Bot. 51 (4): 675-682. 2016 (^1) Cátedra Morfología Vegetal, Facultad de Ciencias Naturales y Museo (UNLP). Boulevard 120 y 61, 1900, La Plata, Argentina, [email protected]. (^2) Comisión de Investigaciones Científicas de la Provincia de Buenos Aires (CIC-BA). (^3) Museo Argentino de Ciencias Naturales Bernardino Rivadavia, Av. Ángel Gallardo 470, C1405DJR, Ciudad Autónoma de Buenos Aires, Argentina. (^4) Consejo Nacional de Investigaciones Científicas y Tecnológicas (CONICET).
GORRER1,4, PEDRO C. BERRUETA1,4^ and GABRIELA E. GIUDICE^1 Summary : Anogramma chaerophylla belongs to a fern genus with annual sporophytes and potentially perennating gametophytes. In the studied area, Natural Reserve Punta Lara, the plants grow stressed mainly by pollution and the invasion of exotic species. As a part of a project on conservation of ferns inhabiting Buenos Aires province, the objectives of this work were to evaluate in Anogramma chaerophylla the conditions for in-vitro spore germination and to analyse the different stages of its reproductive cycle. Spores were sterilized in an aqueous solution 10 % of NaCIO during different times and then sown in Petri dishes with Murashige & Skoog medium, without the addition of sucrose. The dishes were kept under laboratory conditions, at 12 h light/ darkness photoperiod and a temperature of 22 (± 2) °C. After two weeks, the percentage of germination was 80%. The spore germination pattern corresponds to the Vittaria type and the prothallus development was Ceratopteris type. Gametangia developed first in the bended thalloid region of the prothallus and then bisexual tubercles originated near this zone. The sporophytes developed only in association with the tubercles. During culture in plastic pots the sporophytes gave origin to a second generation of prothalli. Our preliminary findings demonstrate that the in vitro culture technique is suitable for A. chaerophylla propagation as a strategy for ex-situ conservation. Key words : Anogramma chaerophylla , micropropagation, gametophyte, tubercle, ex-situ conservation Resumen : El cultivo in vitro de esporas y los aspectos reproductivos del helecho anual Anogramma chaerophylla (Pteridaceae). Anogramma chaerophylla pertenece a un género de helechos con esporofitos anuales y gametofitos potencialmente perennes. En el área de estudio, la Reserva Natural Punta Lara, la vegetación crece bajo estrés debido principalmente a la contaminación y la invasión de especies exóticas. Como parte de un proyecto de conservación de helechos que habitan en la provincia de Buenos Aires, los objetivos del trabajo fueron evaluar en Anogramma chaerophylla las condiciones para la germinación de esporas in-vitro y analizar las distintas etapas de su ciclo reproductivo. Las esporas fueron desinfectadas en solución 10 % de NaCIO durante distintos tiempos y sembradas luego en medio de cultivo Murashige – Skoog, sin agregado de sacarosa. Las cápsulas se incubaron con un fotoperíodo de 12 h luz/oscuridad y una temperatura de 22 (± 2) °C. A las dos semanas germinaron el 80% de las esporas. El patrón de germinación fue tipo Vittaria y el desarrollo del protalo tipo Ceratopteris. Los gametangios aparecieron primero en la región engrosada del protalo donde posteriormente se originaron los tubérculos bisexuales. Los esporofitos se desarrollaron solo en asociación con los tubérculos. Durante su cultivo en macetas, éstos dieron origen a una segunda generación de protalos. Nuestros resultados demuestran que la técnica de cultivo in vitro es apropiada para la propagación de Anogramma chaerophylla y como estrategia para su conservación ex-situ. Palabras clave : Anogramma chaerophylla , micropropagación, gametofito, tubérculo, conservación ex- situ.
Bol. Soc. Argent. Bot. 51 (4) 2016 IntroductIon The genus Anogramma Link (Pteridaceae) comprises seven species of homosporous ferns with typically annual small sporophytes and potentially perennating gametophytes (Nakazato & Gastony, 2003). These species grow often in environments with alternating wet and dry seasons (Tryon & Tryon, 1982). Anogramma is found mainly in the tropics of Mexico and Central and South America, although Anogramma leptophylla (L.) Link inhabits also in Africa, southern Europe to northern India, Australia and New Zealand (Tryon & Tryon, 1982; Nakazato & Gastony, 2003). A striking feature of Anogramma is that prothalli are considered perennial, because they carry tubercles that can become dormant during stressful seasons and support the expansion of a latent embryo when favorable conditions arrive (Goebel, 1889; Baroutsis, 1976; Mehra & Sandhu, 1976; Page, 2002). Additionally, tubercles contain starch grains and other food reserves that may be consumed by the sporophyte as it grows (Goebel, 1969; Pangua et al. 2011). In Argentina, Anogramma chaerophylla (Desv.) Link grows from Misiones and Jujuy provinces in the north through the centre-east, reaching its southernmost distribution in Buenos Aires province (Zuloaga et al ., 2008). The Natural Reserve Punta Lara is located on the Coast of La Plata River and constitutes the core area of the Biosphere Reserve Parque Pereyra Iraola. In this zone A. chaerophylla grows associated with gallery forests that border internal streams, where vegetation and in particular ferns are stressed by urbanization, furtive pulling out and invasion of exotic species (Giudice et al ., 2011). In vitro spore germination is a reliable method for the propagation of ferns and is often employed for their conservation (Fay, 1994; Barnicoat et al ., 2011; Soare, 2008; Baker et al ., 2014). In the genus Anogramma most of the studies on spore germination and prothallus development were conducted in the broadly distributed species A. leptophylla (Mehra & Sandu, 1976; Pangua & Vega 1996; Hagemann, 1997). As a part of a project on conservation of ferns inhabiting Buenos Aires province, the objectives of this work were to evaluate in Anogramma chaerophylla the conditions for in-vitro spore germination and to analyse the different stages of its reproductive cycle. materIal and method Sampling zone: The Natural Reserve Punta Lara is located on the coast of Río de la Plata, Buenos Aires, Argentina (34º47’ S 58º01’ W), where diverse environments like marginal forest, espinal, flooded scrublands and grasslands occur. The weather data for the region (expressed in mean annual values) are: precipitation 994 mm, temperature 16.5 °C and humidity 80%. The warmest month of the year is January with an average maximum temperature of 30.5 °C whereas July is the coldest, with an average minimum of 7.3 °C (www.estadistica.laplata.gov.ar/ paginas/climasueloLP.htm). During hikes in the Reserve only ten individuals of A. chaerophylla were registered in an area of 40 ha, growing in isolation on fallen tree trunks or in the soil (Fig.1A-B). They were found in fertile stage from November to May. Material was collected from the months of January to March, over three seasons. Vouchers were deposited at Herbario Museo de La Plata (LP), Universidad Nacional de La Plata. In vitro propagation: Assays were carried out with fresh spores. For this, portions of pinnae with mature closed sporangia were placed in paper envelopes and set to dry at room temperature (ca. 25 °C) until spore release. Then, material was sieved with a metallic mesh with pores 44-88 μm in diameter to eliminate the remains of sporangia. The spores were transferred to paper envelopes and sterilized through immersion in an aqueous solution 10 % of NaCIO (5 gl/1) during 1- 3 and 5 minutes. Afterwards the envelopes containing the spores were rinsed three times with distilled water. Spores were sown in Petri dishes 5 cm in diameter containing Murashige & Skoog medium (Phyotechnology LaboratoriesTM) and Difco Bacto- agar (7 g/l) without the addition of sucrose, previously autoclaved at 120 ºC for 20 minutes. One percent nystatin (Denver Farma, 100000Ul /g) was added to the culture medium as a fungicide (Ranal, 1999). The dishes were kept under laboratory conditions, at 12 h light/darkness photoperiod (white fluorescent illumination 28 μmol m-2^ s-1) and a temperature of 22 (±2) °C, commonly used in the cultivation of Anogramma (Pangua & Vega, 1996; Pangua et al.
Bol. Soc. Argent. Bot. 51 (4) 2016 Fig. 2. A-G: In vitro prothallus development. A: germinated spore showing the emerged rhizoid (arrow). B: filamentous uniseriated stage of prothallus development. C: later step showing divisions at different directions in the apex of a filament (arrow). D: early stage of asymmetrical spatula-shaped prothallus (the arrow points to the meristematic zone). E: a more advanced stage of asymmetrical development. F: last stage of spatula- shaped prothallus before starting to bend. G: funnel-shaped prothalli. Scales: A, C, D-E-F: 50 μm; B-G: 100 μm. soon as photosynthetic organs (Fig. 5 A-B). Near two months later the sporophyte is made up by four-five leaves originated from the short shoot that remains attached to the tubercle (Fig. 5 C). At this stage sporangia are already developed. Continued growth of the sporophytes gives rise to healthy plants 15-20 cm height (ca. ten months after spore culture), whose viable spores fall into the pots and germinate originating a new generation of prothalli (Fig 5 D-E). dIscussIon and conclusIons Our preliminary findings demonstrate that the in vitro culture technique is suitable for A. chaerophylla propagation, since many prothalli and sporophytes were obtained in laboratory conditions. Sporophytes developed only from the tubercles, the perennating reservant organ exclusive of the genus Anogramma , which shelter the embryo until favorable conditions
for sporophyte emergence arrive (Goebel, 1889; Baroutsis, 1976; Hagemann, 1997). The use of controlled conditions in our assays (temperature, humidity and photoperiod) appears to reduce the adverse factors, such as pollution or drought periods, that prevent sporophyte development and setting of larger populations in the Reserve. However, this hypothesis remains to be proved. The spore germination pattern of A. chaerophylla followed the Vittaria type of Nayar & Kaur (1971) whereas the prothallus development was Ceratopteris type. Huckaby et al. (1981) found Fig. 3. A-B: Gametangia developed in the green prothallus. A: archegonia (arrows) surrounded by rhizoids. B: antheridium with antherozoids (asterisk). Scales: A: 50 μm; E: 40 μm. Fig. 4. A-C: Tubercles of Anogramma chaerophylla. A: tubercles developed on prothalli’s bottom surface covered by profuse rhizoids (arrows). B: detail of tubercle with numerous archegonia (arrows). The scarce antheridia are not shown. C: a young sporophyte (arrow) emerging from the tubercle (asterisk). Scales: A, C: 2mm; B: 200 μm.
sporophytes of A. chaerophylla arose at any time in the year, in coincidence with Molnár et al. (2008) observations in A. leptophylla. Our preliminary findings encourage us to continue applying this methodology to promote ex-situ conservation of A. chaerophylla. Recently, Baker et al. (2014) proved that in vitro culture of spores together with ex situ cultivation of the sporophytes resulted successful for the survival of the critically endangered species A. ascensionis. Currently, the sporophytes A. chaerophylla are being rusticated to be brought to suitable areas of the Reserve Punta Lara, as strategy of reinforcement of the natural populations as well as the spore soil bank. acknowledgments The authors wish to thank the staff of Natural Reserve Punta Lara for their help during field trips. Also to the reviewers who contributed to improve the manuscript. This study was supported by the Research Projects of Universidad Nacional de La Plata, Argentina (N/610 and N/725) and CONICET PIP 878. BIBlIography BAKER, K., P. LAMBDON, E. JONES, J. PELLICER, S. STROUD, O. RENSHAW, M. NISSALO, M. CORCORAN, C. CLUBBE & V. SARASAN. 2014. Rescue, ecology and conservation of a rediscovered island endemic fern ( Anogramma ascensionis ): ex situ methodologies and a road map for species reintroduction and habitat restoration. Bot. J. Linn. Soc. 174: 461-477. BARNICOAT, H., R. CRIPPS, J. KENDON & V. SARASAN. 2011. Conservation in vitro of rare and threatened ferns—case studies of biodiversity hotspot and island species. In Vitro Cell. Dev. Biol. 47: 37-45. BAROUTSIS, J.G. 1976. Cytology, Morphology, and Developmental Biology of the Fern Genus Anogramma. — Ph.D. Thesis. Bloomington: Indiana University. FAY, M.F. 1994. In what situations is in vitro culture appropriate to plant conservation?. Biodivers. Conserv. 3: 176-183. GIUDICE, G. E., J. P. RAMOS GIACOSA, M. LUJÁN LUNA, A. YAÑEZ & E. R. DE LA SOTA. 2011. Diversidad de helechos y licófitas de la Reserva Natural Punta Lara, Buenos Aires, Argentina. Rev. Biol. Trop. 59: 1037-1046. GOEBEL, K. 1889. Über die Jugendzustände der Pflanzen. Flora 72: 1-45. GOEBEL, K. 1969. Organography of plants, especially of the Arquegoniatae and Spermatophyta. Part II: special organography. Hafner Publishing Company. New York-London. H A G E M A N N , W. 1 9 9 7. Ü b e r d i e Knöllchenbildung an den Gametophyten der Farngattung. Anogramma. Stapfia 50: 375–391. HUCKABY, C. S., R. NAGMANI & V. RAGHAVAN.
Bol. Soc. Argent. Bot. 51 (4) 2016 TRYON, R. M., & A. F. TRYON. 1982. Ferns and Allied Plants with Special Reference to Tropical America. Springer-Verlag, New York. ZULOAGA, F. O., O. MORRONE & M. BELGRANO.