Introduction
- Fernández, Helena
- Kumar, Ashwani
ISBN: 9789811661693, 9789811661709
Año de publicación: 2022
Páginas: 1-10
Tipo: Capítulo de Libro
Resumen
Pteridophytes are non-flowering, primitive vascular plants widely used by people all across the globe as they are easily available in large biomass in wild and often grow on relatively poor soils. Ferns, one of the earliest groups of vascular plants, originated around 400 Mya, and attained remarkable levels of diversity and abundance from the Carboniferous period to the Jurassic period (from c. 300 to 150 million years ago). They were especially prevalent in Paleozoic terrestrial ecosystems, before the rise of seed plants, and maintained their dominance even into the Early Cretaceous (~145 Mya). Establishing the timescale of early land plant evolution is essential for testing hypotheses on the coevolution of land plants and Earth’s System.
Referencias bibliográficas
- Abraham S, Thomas T (2022) Ferns: a potential of source medicine and future prospects. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Antony R, Suresh S (2022) Ethnobotanical uses of ferns and lycophytes of Kerala. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Bhatia M, Uniyal PL (2022) In vitro gametophyte development, reproductive biology and nitric oxide signaling in ferns. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Bujak A, Bujak J (2022) Azolla’s use as a biofertilizer and livestock feed. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Cao H, Chai TT, Wang X et al (2017) Phytochemicals from fern species: potential for medicine applications. Phytochem Rev 16:379–440. https://doi.org/10.1007/s11101-016-9488-7
- de Vries J, Fischer AM, Roettger M, Rommel S, Schluepmann H, Bräutigam A, Carlsbecker A, Gould SB (2016) Cytokinin-induced promotion of root meristem size in the fern Azolla supports a shoot-like origin of euphyllophyte roots. New Phytol 209(2):705–720
- Della AP (2022) Ferns as ecological indicators. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Eeckhout S, Leroux O, Willats WGT, Popper ZA, Viane RLL (2014) Comparative glycan profiling of Ceratopteris richardii C-Fern gametophytes and sporophytes links cell-wall composition to functional specialization. Ann Bot 114(6):1.295–1.307
- Fernández H (ed) (2018) Current advances in fern research. Springer, Cham, p 544. ISBN 978-3-319-75102-3
- Fernández H, Revilla MA (2003) In vitro culture of ornamental ferns. Plant Cell Tissue Organ Cult 73:1–13
- Fernández H, Sierra M (2022) Pteridium aquilinum: a threat for biodiversity, and human and animal health. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Fernández H, Kumar A, Revilla MA (eds) (2011) Working with ferns: issues and applications. Springer, New York, p 386. ISBN 978-1-4419-7161-6
- Giri P, Kumar A, Uniyal PL (2022) Omega-3 and Omega-6 fatty acids distribution in Pteridophytes and its significance in nutraceutical, pharmacology and cosmetic industry. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Granados S, Alejandro Rivera M, Cañal J, Fernández H (2022) The Effect of phytohormones and inhibitors on apogamous gametophytes of Dryopteris affinis ssp. affinis. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Grossmann J, Fernández H, Chaubey PM, Valdés AE, Gagliardini V, Cañal MJ, Russo G, Grossniklaus U (2017) Proteogenomic analysis greatly expands the identification of proteins related to reproduction in the apogamous fern Dryopteris affinis ssp. affinis. Front Plant Sci 8(336):1–16
- Janakiraman N, Narayani M, Johnson M (2022) A review on molecular phylogeny of Pteridophytes using DNA barcoding. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Johnson M, Fernández H, Shibila T (2022a) Morphogenesis in ferns. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Johnson M, Janakiraman N, Chandra Saleride J, Sivaraman A, Shivananthini B, Paulraj K (2022b) Phytochemistry of Indian Pteridophytes—a review. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Johnson M, Janakiraman N, Chandra Saleride J, Sivaraman A, Shivananthini B, Paulraj K (2022c) Biopotency of ferns. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Kaźmierczak A (2010) Gibberellic acid and ethylene control male sex determination and development of Anemia phyllitidis gametophytes. In: Fernández H, Kumar A, Revilla MA (eds) Working with ferns. Issues and applications. Springer, New York, pp 49–65
- Kholia RS, Balkrishnan A (2022) Pteridophytes used by peoples of Indian Himalayan region and northern India. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Kumar A, Giri P, Uniyal PL (2022a) Genome evolution in ferns: molecular phylogenomics—a review. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Springer, Singapore. (this volume)
- Kumar A, Giri P, Uniyal PL (2022b) Plastogenomics provides a tool to study phylogenetic interrelationships of monilophytes: a review. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- López RA, Renzaglia KS (2014) Multiflagellated sperm cells of Ceratopteris richardii are bathed in arabinogalactan proteins throughout development. Am J Bot 101(12):2.052–2.061
- Markham K, Chalk T, Neal Stewart C Jr (2006) Evaluation of fern and moss protein-based defenses against phytophagous insects. Int J Plant Sci 167(1):111–117
- Mehltreter K (2022) Diversity of ferns and lycophytes at different spatial scales, along environmental gradients and in the anthropogenic landscape. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Morajikar S, Suneetha C, Harish Kumar TG, Hedge S (2022) Molecular markers in Pteridophytes. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Patil S, Lavate R, Raole V, Rajput K (2022) Adiantum L.: Overview on taxonomy, distribution, conservation status ethnomedicinal uses, phytochemistry and pharmacognosy from India. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns-biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Perez-Martin A, Michelazzo C, Torres-Ruiz JM, Flexas J, Fernández JE, Sebastiani L, Diaz-Espejo A (2014) Regulation of photosynthesis and stomatal and mesophyll conductance under water stress and recovery in olive trees: correlation with gene expression of carbonic anhydrase and aquaporins. J Exp Bot 65(12):3143–3156. https://doi.org/10.1093/jxb/eru160
- Prabhu S, Hegde S (2022) Pteridophytes as effective biosorption agents of heavy metals. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Qi X, Kuo L-Y, Guo C, Li H, Li Z, Qi J et al (2018) A well-resolved fern nuclear phylogeny reveals the evolution history of numerous transcription factor families. Mol Phylogenet Evol 127:961–977. https://doi.org/10.1016/j.ympev.2018.06.043
- Rathinasabapathi B (2006) Ferns represent an untapped biodiversity for improving crops for environmental stress tolerance. New Phytol 172:385–390. https://doi.org/10.1111/j.1469-8137.2006.01889.x
- Sahayaraj K (2022) Ferns: a source of phytoecdysones and their applications in pestiferous insect’s management. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Sajeev S, Roshni PT, Mathias RC, Morajkar S, Prabhu S, Hegde S (2022) Pteridophytes: effective agents of phytoremediation. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Salmi ML, Bushart TJ (2010) Cellular, molecular, and genetic changes during the development of Ceratopteris richardii gametophytes. In: Fernández H, Kumar A, Revilla MA (eds) Working with ferns. Issues and applications. Springer, New York, pp 11–24
- Salmi ML, Bushart TJ, Stout SC, Roux SJ (2005) Profile and analysis of gene expression changes during early development in germinating spores of Ceratopteris richardii. Plant Physiol 138:1.734–1.745
- Sara C, Ruby GD (2022) In vitro antiproliferative effect of Angiopteris evecta (G. Forst.) Hoffm extracts against cultured Ht-29 colon cancer cells. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Sánchez E, Alejandro Menéndez M, Cañal J, Fernández H (2022) Antagonistic action of yucasine and DMSO on apogamy in the fern Dryopteris affinis ssp. affinis. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Schluepmann H, Bigot I, Rijken N, Grifoll AC, Gudde P, Dijkhuizen LW, Güngör E (2022) domestication of the floating fern symbiosis Azolla. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Shibila T, Johnson M (2022) In vitro propagation of epiphytic fern species. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Suneetha C, Hegde S (2022) Micropropagation of Pteridophytes. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Sureshkumar J, Ayyanar M (2022) Phytochemical composition, in vitro antioxidant and antidiabetic activities of Nephrolepis auriculata (L.) Trimen, an unexplored ethnomedicinal fern. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- Tosens T, Nishida K, Gago J, Coopman RE, Cabrera HM, Carriquí M, Laanisto L, Morales L, Nadal M, Rojas R, Talts E, Tomas M, Hanba Y, Niinemets Ü, Flexas J (2016) The photosynthetic capacity in 35 ferns and fern allies: mesophyll CO2 diffusion as a key trait. New Phytol 209:1576–1590. https://doi.org/10.1111/nph.13719
- Valledor L, Menéndez V, Canal MJ, Revilla A, Fernández H (2014) Proteomic approaches to sexual development mediated by antheridiogen in the fern Blechnum spicant L. Proteomics 14(17–18):2.061–2.071
- Vallinayagam S (2022) In vitro propagation of Histiopteris incisa (Thunb.) J. Sm.—an ornamental fern. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)
- von Aderkas P (1984) Promotion of apogamy in Matteuccia struthiopteris, the ostrich fern. Am Fern J 74(1):1–6
- Wada M (2007) The fern as a model system to study photomorphogenesis. J Plant Res 120(1):3–16
- Wen CK, Smith R, Banks JA (1999) ANI1. A sex pheromone-induced gene in Ceratopteris gametophytes and its possible role in sex determination. Plant Cell 11:1.307–1.317
- Wyder S, Rivera A, Valdés AE, Cañal MJ, Gagliardini V, Fernández H, Grossniklaus U (2020) Differential gene expression profiling of one- and two-dimensional apogamous gametophytes of the fern Dryopteris affinis ssp. affinis. Plant Physiol Biochem 148:302–311
- Youngstrom CE, Irish EE, Cheng C-L (2022) The crucial role of Ceratopteris richardii in understanding the evolution of the WOX gene family. In: Johnson M, Fernández H, Kumar A, Shibila A (eds) Ferns—biotechnology, propagation, medicinal uses and environmental regulation. Singapore, Singapore. (this volume)