Phymatosorus Scolopendria Global

Total Page：16

File Type：pdf, Size：1020Kb

FULL ACCOUNT FOR: Phymatosorus scolopendria Phymatosorus scolopendria System: Terrestrial Kingdom Phylum Class Order Family Plantae Pteridophyta Filicopsida Polypodiales Polypodiaceae Common name maile-scented fern (English), monarch fern (English), creeping fern (English) Synonym Phymatosaurus scolopendria , (Burm. f.) Pic. Serm., orth. var. Polypodium phymatodes , L. Microsorum scolopendria , (Burm. f.) Copel. Polypodium scolopendria , Burm. f. Similar species Summary view this species on IUCN Red List Principal source: Compiler: IUCN SSC Invasive Species Specialist Group (ISSG) with support from the Overseas Territories Environmental Programme (OTEP) project XOT603, a joint project with the Cayman Islands Government - Department of Environment Review: Pubblication date: 2010-11-10 ALIEN RANGE [1] BERMUDA [1] PUERTO RICO [2] UNITED STATES BIBLIOGRAPHY 3 references found for Phymatosorus scolopendria Managment information General information USDA, ARS, 2010. Phymatosorus scolopendria (Burm. f.) Pic. Serm. National Genetic Resources Program. Germplasm Resources Information Network - (GRIN) [Online Database]. National Germplasm Resources Laboratory, Beltsville, Maryland Summary: Available from: http://www.ars-grin.gov/cgi-bin/npgs/html/taxon.pl?405259 [Accessed 5 October 2010] Global Invasive Species Database (GISD) 2021. Species profile Phymatosorus Pag. 1 scolopendria. Available from: http://www.iucngisd.org/gisd/species.php?sc=1795 [Accessed 30 September 2021] FULL ACCOUNT FOR: Phymatosorus scolopendria USDA, NRCS, 2010. Phymatosorus scolopendria (Burm. f.) Pic. Serm. The PLANTS Database. National Plant Data Center, Baton Rouge, LA 70874-4490 USA. Summary: Available from: http://plants.usda.gov/java/profile?symbol=PHSC14 [Accessed 5 October 2010] Varnham, K. 2006 (Updated 2009). Database of non-native species occurring in UK Overseas Territories. JNCC Report 372, Peterborough, United Kingdom. Global Invasive Species Database (GISD) 2021. Species profile Phymatosorus Pag. 2 scolopendria. Available from: http://www.iucngisd.org/gisd/species.php?sc=1795 [Accessed 30 September 2021].

Copy Link

Recommended publications

"National List of Vascular Plant Species That Occur in Wetlands: 1996 National Summary."
Intro 1996 National List of Vascular Plant Species That Occur in Wetlands The Fish and Wildlife Service has prepared a National List of Vascular Plant Species That Occur in Wetlands: 1996 National Summary (1996 National List). The 1996 National List is a draft revision of the National List of Plant Species That Occur in Wetlands: 1988 National Summary (Reed 1988) (1988 National List). The 1996 National List is provided to encourage additional public review and comments on the draft regional wetland indicator assignments. The 1996 National List reflects a significant amount of new information that has become available since 1988 on the wetland affinity of vascular plants. This new information has resulted from the extensive use of the 1988 National List in the field by individuals involved in wetland and other resource inventories, wetland identification and delineation, and wetland research. Interim Regional Interagency Review Panel (Regional Panel) changes in indicator status as well as additions and deletions to the 1988 National List were documented in Regional supplements. The National List was originally developed as an appendix to the Classification of Wetlands and Deepwater Habitats of the United States (Cowardin et al.1979) to aid in the consistent application of this classification system for wetlands in the field.. The 1996 National List also was developed to aid in determining the presence of hydrophytic vegetation in the Clean Water Act Section 404 wetland regulatory program and in the implementation of the swampbuster provisions of the Food Security Act. While not required by law or regulation, the Fish and Wildlife Service is making the 1996 National List available for review and comment.
[Show full text]
Australia Lacks Stem Succulents but Is It Depauperate in Plants With
Available online at www.sciencedirect.com ScienceDirect Australia lacks stem succulents but is it depauperate in plants with crassulacean acid metabolism (CAM)? 1,2 3 3 Joseph AM Holtum , Lillian P Hancock , Erika J Edwards , 4 5 6 Michael D Crisp , Darren M Crayn , Rowan Sage and 2 Klaus Winter In the flora of Australia, the driest vegetated continent, [1,2,3]. Crassulacean acid metabolism (CAM), a water- crassulacean acid metabolism (CAM), the most water-use use efficient form of photosynthesis typically associated efficient form of photosynthesis, is documented in only 0.6% of with leaf and stem succulence, also appears poorly repre- native species. Most are epiphytes and only seven terrestrial. sented in Australia. If 6% of vascular plants worldwide However, much of Australia is unsurveyed, and carbon isotope exhibit CAM [4], Australia should host 1300 CAM signature, commonly used to assess photosynthetic pathway species [5]. At present CAM has been documented in diversity, does not distinguish between plants with low-levels of only 120 named species (Table 1). Most are epiphytes, a CAM and C3 plants. We provide the first census of CAM for the mere seven are terrestrial. Australian flora and suggest that the real frequency of CAM in the flora is double that currently known, with the number of Ellenberg [2] suggested that rainfall in arid Australia is too terrestrial CAM species probably 10-fold greater. Still unpredictable to support the massive water-storing suc- unresolved is the question why the large stem-succulent life — culent life-form found amongst cacti, agaves and form is absent from the native Australian flora even though euphorbs.
[Show full text]
Microsorum Pteropus
The IUCN Red List of Threatened Species™ ISSN 2307-8235 (online) IUCN 2008: T199682A9116734 Microsorum pteropus Assessment by: Lansdown, R.V. View on www.iucnredlist.org Citation: Lansdown, R.V. 2011. Microsorum pteropus. The IUCN Red List of Threatened Species 2011: e.T199682A9116734. http://dx.doi.org/10.2305/IUCN.UK.2011-2.RLTS.T199682A9116734.en Copyright: © 2015 International Union for Conservation of Nature and Natural Resources Reproduction of this publication for educational or other non-commercial purposes is authorized without prior written permission from the copyright holder provided the source is fully acknowledged. Reproduction of this publication for resale, reposting or other commercial purposes is prohibited without prior written permission from the copyright holder. For further details see Terms of Use. The IUCN Red List of Threatened Species™ is produced and managed by the IUCN Global Species Programme, the IUCN Species Survival Commission (SSC) and The IUCN Red List Partnership. The IUCN Red List Partners are: BirdLife International; Botanic Gardens Conservation International; Conservation International; Microsoft; NatureServe; Royal Botanic Gardens, Kew; Sapienza University of Rome; Texas A&M University; Wildscreen; and Zoological Society of London. If you see any errors or have any questions or suggestions on what is shown in this document, please provide us with feedback so that we can correct or extend the information provided. THE IUCN RED LIST OF THREATENED SPECIES™ Taxonomy Kingdom Phylum Class Order Family Plantae Tracheophyta Polypodiopsida Polypodiales Polypodiaceae Taxon Name: Microsorum pteropus (Blume) Copel. Synonym(s): • Colysis pteropus (Blume) Bosman • Colysis tridactyla (Wall. ex Hook. & Grev.) J.Sm. • Colysis zosteriformis (Wall. ex Mett.) J.Sm.
[Show full text]
Cara Membaca Informasi Daftar Jenis Tumbuhan
Dilarang mereproduksi atau memperbanyak seluruh atau sebagian dari buku ini dalam bentuk atau cara apa pun tanpa izin tertulis dari penerbit. © Hak cipta dilindungi oleh Undang-Undang No. 28 Tahun 2014 All Rights Reserved Rugayah Siti Sunarti Diah Sulistiarini Arief Hidayat Mulyati Rahayu LIPI Press © 2015 Lembaga Ilmu Pengetahuan Indonesia (LIPI) Pusat Penelitian Biologi Katalog dalam Terbitan (KDT) Daftar Jenis Tumbuhan di Pulau Wawonii, Sulawesi Tenggara/ Rugayah, Siti Sunarti, Diah Sulistiarini, Arief Hidayat, dan Mulyati Rahayu– Jakarta: LIPI Press, 2015. xvii + 363; 14,8 x 21 cm ISBN 978-979-799-845-5 1. Daftar Jenis 2. Tumbuhan 3. Pulau Wawonii 158 Copy editor : Kamariah Tambunan Proofreader : Fadly S. dan Risma Wahyu H. Penata isi : Astuti K. dan Ariadni Desainer Sampul : Dhevi E.I.R. Mahelingga Cetakan Pertama : Desember 2015 Diterbitkan oleh: LIPI Press, anggota Ikapi Jln. Gondangdia Lama 39, Menteng, Jakarta 10350 Telp. (021) 314 0228, 314 6942. Faks. (021) 314 4591 E-mail: [email protected] Website: penerbit.lipi.go.id LIPI Press @lipi_press DAFTAR ISI DAFTAR GAMBAR ............................................................................. vii PENGANTAR PENERBIT .................................................................. xi KATA PENGANTAR ............................................................................ xiii PRAKATA ............................................................................................. xv PENDAHULUAN ...............................................................................
[Show full text]
Microsorum 3 Tohieaense (Polypodiaceae)
Systematic Botany (2018), 43(2): pp. 397–413 © Copyright 2018 by the American Society of Plant Taxonomists DOI 10.1600/036364418X697166 Date of publication June 21, 2018 Microsorum 3 tohieaense (Polypodiaceae), a New Hybrid Fern from French Polynesia, with Implications for the Taxonomy of Microsorum Joel H. Nitta,1,2,3 Saad Amer,1 and Charles C. Davis1 1Department of Organismic and Evolutionary Biology and Harvard University Herbaria, Harvard University, Cambridge, Massachusetts 02138, USA 2Current address: Department of Botany, National Museum of Nature and Science, 4-1-1 Amakubo, Tsukuba, Japan, 305-0005 3Author for correspondence ([email protected]) Communicating Editor: Alejandra Vasco Abstract—A new hybrid microsoroid fern, Microsorum 3 tohieaense (Microsorum commutatum 3 Microsorum membranifolium) from Moorea, French Polynesia is described based on morphology and molecular phylogenetic analysis. Microsorum 3 tohieaense can be distinguished from other French Polynesian Microsorum by the combination of sori that are distributed more or less in a single line between the costae and margins, apical pinna wider than lateral pinnae, and round rhizome scales with entire margins. Genetic evidence is also presented for the first time supporting the hybrid origin of Microsorum 3 maximum (Microsorum grossum 3 Microsorum punctatum), and possibly indicating a hybrid origin for the Hawaiian endemic Microsorum spectrum. The implications of hybridization for the taxonomy of microsoroid ferns are discussed, and a key to the microsoroid ferns of the Society Islands is provided. Keywords—gapCp, Moorea, rbcL, Society Islands, Tahiti, trnL–F. Hybridization, or interbreeding between species, plays an et al. 2008). However, many species formerly placed in the important role in evolutionary diversification (Anderson 1949; genus Microsorum on the basis of morphology (Bosman 1991; Stebbins 1959).
[Show full text]
Polypodiaceae (PDF)
This PDF version does not have an ISBN or ISSN and is not therefore effectively published (Melbourne Code, Art. 29.1). The printed version, however, was effectively published on 6 June 2013. Zhang, X. C., S. G. Lu, Y. X. Lin, X. P. Qi, S. Moore, F. W. Xing, F. G. Wang, P. H. Hovenkamp, M. G. Gilbert, H. P. Nooteboom, B. S. Parris, C. Haufler, M. Kato & A. R. Smith. 2013. Polypodiaceae. Pp. 758–850 in Z. Y. Wu, P. H. Raven & D. Y. Hong, eds., Flora of China, Vol. 2–3 (Pteridophytes). Beijing: Science Press; St. Louis: Missouri Botanical Garden Press. POLYPODIACEAE 水龙骨科 shui long gu ke Zhang Xianchun (张宪春)1, Lu Shugang (陆树刚)2, Lin Youxing (林尤兴)3, Qi Xinping (齐新萍)4, Shannjye Moore (牟善杰)5, Xing Fuwu (邢福武)6, Wang Faguo (王发国)6; Peter H. Hovenkamp7, Michael G. Gilbert8, Hans P. Nooteboom7, Barbara S. Parris9, Christopher Haufler10, Masahiro Kato11, Alan R. Smith12 Plants mostly epiphytic and epilithic, a few terrestrial. Rhizomes shortly to long creeping, dictyostelic, bearing scales. Fronds monomorphic or dimorphic, mostly simple to pinnatifid or 1-pinnate (uncommonly more divided); stipes cleanly abscising near their bases or not (most grammitids), leaving short phyllopodia; veins often anastomosing or reticulate, sometimes with included veinlets, or veins free (most grammitids); indument various, of scales, hairs, or glands. Sori abaxial (rarely marginal), orbicular to oblong or elliptic, occasionally elongate, or sporangia acrostichoid, sometimes deeply embedded, sori exindusiate, sometimes covered by cadu- cous scales (soral paraphyses) when young; sporangia with 1–3-rowed, usually long stalks, frequently with paraphyses on sporangia or on receptacle; spores hyaline to yellowish, reniform, and monolete (non-grammitids), or greenish and globose-tetrahedral, trilete (most grammitids); perine various, usually thin, not strongly winged or cristate.
[Show full text]
Cytotoxicity and Antiglucosidase Potential of Six Selected Edible and Medicinal Ferns
Acta Poloniae Pharmaceutica ñ Drug Research, Vol. 72 No. 2 pp. 297ñ401, 2015 ISSN 0001-6837 Polish Pharmaceutical Society SHORT COMMUNICATION CYTOTOXICITY AND ANTIGLUCOSIDASE POTENTIAL OF SIX SELECTED EDIBLE AND MEDICINAL FERNS TSUN-THAI CHAI1, 2,*, LOO-YEW YEOH2, NOR ISMALIZA MOHD. ISMAIL1, 3, HEAN-CHOOI ONG4 and FAI-CHU WONG1, 2 1Center for Biodiversity Research, 2Department of Chemical Science, 3Department of Biological Science, Faculty of Science, Universiti Tunku Abdul Rahman, 31900 Kampar, Malaysia 4Institute of Biological Sciences, Faculty of Science, University of Malaya, 50603 Kuala Lumpur, Malaysia Keywords: anticancer, antidiabetic, fern, phytochemical Globally, bioactive phytochemicals are gaining Nephrolepis acutifolia and Pleocnemia irregularis. popularity among consumers, as evidenced by the The leaf and root of C. arida are traditionally used to steady rise in the demand for botanical dietary sup- treat dysentery and skin diseases (10). C. dentata is plements. One driving force behind this is the per- an edible fern (11), which is also a folk remedy for ception of herbal medicine being a safe and relative- skin diseases (12). C. interruptus is a medicinal plant ly inexpensive alternative in the management of used for treating sores, burns, liver diseases, gonor- human diseases (1, 2). There is currently intensive rhea, cough, and malaria (13). C. interruptus-derived effort worldwide to search for bioactive phytochem- coumarin derivatives are cytotoxic to human icals for potential applications in the development of nasopharyngeal carcinoma (KB) cell line and exhib- novel or alternative nutraceutical, cosmetic and ited antibacterial activity (14). Juice extracted from pharmaceutical products (3, 4). Phytochemicals the fronds of M. punctatum is used as purgative, with cytotoxic and antiglucosidase properties, for diuretic, and wound healing agents (15).
[Show full text]
The Genera Microsorum and Phymatosorus (Polypodiaceae) in Thailand
Tropical Natural History 14(2): 45-74, October 2014 2014 by Chulalongkorn University The Genera Microsorum and Phymatosorus (Polypodiaceae) in Thailand SAHANAT PETCHSRI1 AND THAWEESAKDI BOONKERD2* 1 Division of Botany, Department of Biological Science, Faculty of Liberal Arts and Science, Kasetsart University, Kamphaeng Saen Campus, Nakhon Pathom 73140, THAILAND 2 Department of Botany, Faculty of Science, Chulalongkorn University, Bangkok 10330, THAILAND * Corresponding Author: Thaweesakdi Boonkerd ([email protected]) Received: 30 July 2014; Accepted: 5 September 2014 Abstract.– Based on the examination of herbarium specimens and on observations of most Thai species in their natural habitat, an updated account and status of the Microsorum sensu lato (Polypodiaceae) is presented. This includes 11 species of Microsorum Link and four species of Phymatosorus Pic. Serm. The descriptions, distributional and ecological information of all previously recognized taxa have been completed and corrected where necessary. The nomenclatural status and synonyms were thoroughly reviewed with typifications of all names. Determination keys to the species of both genera in Thailand are provided. KEY WORDS: microsoroid ferns, Microsorum, Phymatosorus, revision pinnatly compound lamina and one row INTRODUCTION sunken sori), were excluded from Microsorum in that classification. in her The polypodiaceous fern genus work. Although the generic name Microsorum was established by Link in 1833 Phymatosorus, a genus having sori located based on the type species,
[Show full text]
Fern Classification
16 Fern classification ALAN R. SMITH, KATHLEEN M. PRYER, ERIC SCHUETTPELZ, PETRA KORALL, HARALD SCHNEIDER, AND PAUL G. WOLF 16.1 Introduction and historical summary / Over the past 70 years, many fern classifications, nearly all based on morphology, most explicitly or implicitly phylogenetic, have been proposed. The most complete and commonly used classifications, some intended primar• ily as herbarium (filing) schemes, are summarized in Table 16.1, and include: Christensen (1938), Copeland (1947), Holttum (1947, 1949), Nayar (1970), Bierhorst (1971), Crabbe et al. (1975), Pichi Sermolli (1977), Ching (1978), Tryon and Tryon (1982), Kramer (in Kubitzki, 1990), Hennipman (1996), and Stevenson and Loconte (1996). Other classifications or trees implying relationships, some with a regional focus, include Bower (1926), Ching (1940), Dickason (1946), Wagner (1969), Tagawa and Iwatsuki (1972), Holttum (1973), and Mickel (1974). Tryon (1952) and Pichi Sermolli (1973) reviewed and reproduced many of these and still earlier classifica• tions, and Pichi Sermolli (1970, 1981, 1982, 1986) also summarized information on family names of ferns. Smith (1996) provided a summary and discussion of recent classifications. With the advent of cladistic methods and molecular sequencing techniques, there has been an increased interest in classifications reflecting evolutionary relationships. Phylogenetic studies robustly support a basal dichotomy within vascular plants, separating the lycophytes (less than 1 % of extant vascular plants) from the euphyllophytes (Figure 16.l; Raubeson and Jansen, 1992, Kenrick and Crane, 1997; Pryer et al., 2001a, 2004a, 2004b; Qiu et al., 2006). Living euphyl• lophytes, in turn, comprise two major clades: spermatophytes (seed plants), which are in excess of 260 000 species (Thorne, 2002; Scotland and Wortley, Biology and Evolution of Ferns and Lycopliytes, ed.
[Show full text]
Phytophoto Index 2018
PhytoPhoto 2018 Image Availability Accessing the photo collection is easy. Simply send an email with the plant names or a description of images sought to [email protected] and a gallery of photos meeting your criteria will be submitted to you, usually the same day. Abeliophyllum distichum Abutilon vitifolium ‘Album’ Acer palmatum fall color Abeliophyllum distichum ‘Roseum’ Abutilon vitifolium white Acer palmatum in front of window Abelmoschus esculentus "Okra" Abutilon Wisley Red Acer palmatum in orange fall color Abelmoschus manihot Abutilon x hybridum 'Bella Red' Acer palmatum var. dissectum Abies balsamea 'Nana' Abutilon-orange Acer palmatum var. dissectum Dissectum Abies concolor 'Blue Cloak' Abutilon-white Viride Group Abies guatemalensis Acacia baileyana Acer pensylvaticum Abies koreana 'Glauca' Acacia baileyana 'Purpurea' Acer platanoides 'Princeton Gold' Abies koreana 'Green Carpet' Acacia boormanii Acer pseudoplatanus Abies koreana 'Horstmann's Silberlocke' Acacia confusa Acer pseudoplatanus 'Leopoldii' Abies koreana 'Silberperle' Acacia cultriformis Acer pseudoplatanus 'Purpureum' Abies koreana 'Silberzwerg' Acacia dealbata Acer pseudoplatanus ‘Puget Pink’ Abies koreana 'Silver Show' Acacia iteaphylla Acer pseudoplatanus f... 'Leopoldii' Abies koreana Aurea Acacia koa Acer rubrum Abies koreana-cone Acacia koa seedlings Acer rubrum and stop sign Abies lasiocarpa Acacia koaia Acer rufinerve Hatsuyuki Abies lasiocarpa v. arizonica 'Argentea' Acacia longifolia Acer saccharinum Abies lasiocarpa v. arizonica 'Glauca Acacia
[Show full text]
Phylogenetic Relationships of the Enigmatic Malesian Fern Thylacopteris (Polypodiaceae, Polypodiidae)
Int. J. Plant Sci. 165(6):1077–1087. 2004. Ó 2004 by The University of Chicago. All rights reserved. 1058-5893/2004/16506-0016$15.00 PHYLOGENETIC RELATIONSHIPS OF THE ENIGMATIC MALESIAN FERN THYLACOPTERIS (POLYPODIACEAE, POLYPODIIDAE) Harald Schneider,1,* Thomas Janssen,*,y Peter Hovenkamp,z Alan R. Smith,§ Raymond Cranﬁll,§ Christopher H. Hauﬂer,k and Tom A. Ranker# *Albrecht-von-Haller Institute of Plant Sciences, Georg-August-Universita¨tGo¨ttingen, Untere Karspu¨le 2, 37073 Go¨ttingen, Germany; yMuseum National d’Histoire Naturelle, De´partment de Syste´matique et Evolution, 16 Rue Buffon, 75005 Paris, France; zNational Herbarium of the Netherlands, Leiden University Branch, P.O. Box 9514, 2300 RA Leiden, The Netherlands; §University Herbarium, University of California, 1001 Valley Life Science Building, Berkeley, California 94720-2465, U.S.A.; kDepartment of Ecology and Evolutionary Biology, University of Kansas, Lawrence, Kansas 66045-2106, U.S.A.; #University Museum and Department of Ecology and Evolutionary Biology, University of Colorado, Boulder, Colorado 80309-0265, U.S.A. Thylacopteris is the sister to a diverse clade of polygrammoid ferns that occurs mainly in Southeast Asia and Malesia. The phylogenetic relationships are inferred from DNA sequences of three chloroplast genome regions (rbcL, rps4, rps4-trnS IGS) for 62 taxa and a fourth cpDNA sequence (trnL-trnF IGS) for 35 taxa. The results refute previously proposed close relationships to Polypodium s.s. but support suggested relationships to the Southeast Asiatic genus Goniophlebium. In all phylogenetic reconstructions based on more than one cpDNA region, we recovered Thylacopteris as sister to a clade in which Goniophlebium is in turn sister to several lineages, including the genera Lecanopteris, Lepisorus, Microsorum, and their relatives.
[Show full text]
The Marattiales and Vegetative Features of the Polypodiids We Now
VI. Ferns I: The Marattiales and Vegetative Features of the Polypodiids We now take up the ferns, order Marattiales - a group of large tropical ferns with primitive features - and subclass Polypodiidae, the leptosporangiate ferns. (See the PPG phylogeny on page 48a: Susan, Dave, and Michael, are authors.) Members of these two groups are spore-dispersed vascular plants with siphonosteles and megaphylls. A. Marattiales, an Order of Eusporangiate Ferns The Marattiales have a well-documented history. They first appear as tree ferns in the coal swamps right in there with Lepidodendron and Calamites. (They will feature in your second critical reading and writing assignment in this capacity!) The living species are prominent in some hot forests, both in tropical America and tropical Asia. They are very like the leptosporangiate ferns (Polypodiids), but they differ in having the common, primitive, thick-walled sporangium, the eusporangium, and in having a distinctive stele and root structure. 1. Living Plants Go with your TA to the greenhouse to view the potted Angiopteris. The largest of the Marattiales, mature Angiopteris plants bear fronds up to 30 feet in length! a.These plants, like all ferns, have megaphylls. These megaphylls are divided into leaflets called pinnae, which are often divided even further. The feather-like design of these leaves is common among the ferns, suggesting that ferns have some sort of narrow definition to the kinds of leaf design they can evolve. b. The leaflets are borne on stem-like axes called rachises, which, as you can see, have swollen bases on some of the plants in the lab.
[Show full text]