DOCSLIB.ORG

JOSE L. PANERO SEPTEMBER 2020 ADDRESS Department

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
JOSE L. PANERO SEPTEMBER 2020 ADDRESS Department JOSE L. PANERO SEPTEMBER 2020 ADDRESS Department of Integrative Biology The University of Texas Austin, TX 78712 Ph. (512) 232-1990; Fax: (512) 471-3878 E-mail: [email protected] Citizenship: U.S.A. EDUCATION 1990 Ph.D., Botany, University of Tennessee 1986 M.S., Botany, University of Tennessee 1984 B.A., Biology, University of Miami 1979 High School Diploma, Centro Escolar del Lago, Mexico City, Mexico PROFESSIONAL EXPERIENCE 2002-present Associate Professor of Integrative Biology, Associate Director of the Plant Resources Center (Herbarium TEX-LL) 1996-2002 Assistant Professor of Botany 1993-1996 Assistant Professor, and Director, Michigan State University Herbarium. 1991-1993 Research Associate, University of Texas at Austin. 1990-1991 Lecturer, Grinnell College, Grinnell, Iowa. 1988-1990 Graduate Teaching Assistant, University of Tennessee. 1985-1988 Graduate Research Assistant, University of Tennessee. 1984-1985 Graduate Teaching Assistant, University of Tennessee. 1984 Research Assistant, Fairchild Tropical Gardens, Miami, Florida. GRANTS RECEIVED 2012-2016 Australian Research Council, DP130101191. A new and rapidly evolving class of plant peptides, PI Joshua S. Mylne, University of Western Australia, CO-PI Edward, E Schilling, University of Tennessee, CO-PI Jose L. Panero, University of Texas. $375,000 2004-2007 National Science Foundation, DEB-0344116. Collaborative Research: Systematic Analysis of Evolutionary Radiation of Eupatorieae (Asteraceae). $311, 391. 2004-2006 Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO), CS011. México. Electronic catalogue of Mexican Asteraceae names; final phase. $5, 000. 2002-2004 Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO), V057. México. Electronic Catalogue of Mexican Vascular Plant Specimens Deposited at the University of Texas at Austin Herbaria; fourth phase. $57, 000. 2001-2003 Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO), AE024. México. Electronic catalogue of Mexican Asteraceae names; third phase. $12, 500. 2002-2003 Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO), AE012. México. Electronic catalogue of Mexican Asteraceae names; second phase. $9,700. 2001-2003 Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO), V057. México. Electronic Catalogue of Mexican Vascular Plant Specimens Deposited at the University of Texas at Austin Herbaria; third phase. $80, 000. 2000-2002 National Science Foundation, DIB-9987515. Electronic Catalogue of Mexican Vascular Plant Specimens Deposited at the University of Texas at Austin Herbaria. Funded extension to implement similar computerized database system at Herbario de la Universidad Agrícola La Molina, Lima, Peru. $292,609 and $30,000. 2001-2002 Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO), V004. México. Electronic catalogue of Mexican Asteraceae names. $15, 000. 2001-2002 Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO), V007. México. Electronic Catalogue of Mexican Vascular Plant Specimens Deposited at the University of Texas at Austin Herbaria; first phase. $25, 000. 1999-2003 National Science Foundation, DEB-9903800. Systematics of subtribe Galinsoginae (Asteraceae: Heliantheae). $82,553. Funded extension of $20,000. 1998-2000 Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO), México. Q047. Electronic Catalogue of Mexican Vascular Plant Specimens Deposited at the University of Texas at Austin Herbaria; second phase. $53,000. 1997-2000 National Science Foundation. DEB-9709860. Electronic catalog of Mexican Asteraceae specimens deposited at the University of Texas at Austin Herbarium. $100,039 1995-1998 National Science Foundation. INT-MEX 94-16309. Enumeration of the Flora of the Mixteca Alta Region of western Oaxaca, Mexico. $42,780. 1994-2001 Fundación Bacardí and Fundación UNAM, Mexico. Documentación, evaluación y análisis de la diversidad florística del sur de Puebla y noroeste de Oaxaca. Co-PI: Patricia Dávila, UNAM. $80,000. 1994-1996 National Science Foundation DEB 94-96174. Phylogenetic studies of DNA and morphological variation in the subtribe Ecliptinae (Asteraceae: Heliantheae). $140,000. 1991-1994 National Science Foundation DEB 91-14798. Phylogenetic studies of DNA and morphological variation in the subtribe Ecliptinae (Asteraceae: Heliantheae). $230,500. 1991 Smithsonian Institution Faculty Fellowship. Systematic studies of Verbesina (Asteraceae: Heliantheae). $2,500. 1988-1990 National Science Foundation Doctoral Dissertation Improvement Grant BSR 88- -03222. Systematic revision of Helianthopsis (Asteraceae: Heliantheae). $10,052. HONORS/AWARDS Greenman Award 1993, Missouri Botanical Garden. This award is presented each year for the paper judged best in vascular plant or bryophyte systematics based on a doctoral dissertation published during the previous year. New species named in my honor: 16 Ageratina josepaneroi B. L. Turner (Asteraceae); Mexico Cobaea paneroi A. Prather (Polemoniaceae); Mexico Deprea paneroi Benítez & M. Martínez (Solanaceae); Venezuela Eupatorium (Critonia) paneroi B. L. Turner (Asteraceae); Mexico Jaltomata paneroi T. Mione (Solanaceae); Peru Lamourouxia paneroi B. L. Turner (Scrophulariaceae); Mexico Pavonia paneroi P. Fryxell (Malvaceae); Mexico Perymenium paneroi B. L. Turner (Asteraceae); Mexico Senecio (Psacaliopsis) paneroi B. L. Turner (Asteraceae); Mexico Verbesina paneroi B. L. Turner (Asteraceae); Mexico Thoreauea paneroi J. Williams (Apocynaceae); Mexico Viguiera (Tithonia) paneroi B. L. Turner (Asteraceae); Mexico Dimerostemma paneroi deMoraes (Asteraceae); Brazil Viguiera paneroana Rzedowski & GC Rzedowski (Asteraceae); Mexico Tridax paneroi B. L. Turner (Asteraceae); Mexico Tetrachyron paneroi B. L. Turner (Asteraceae); Mexico 2 Genus named in my honor: 1 Paneroa E. E. Schilling (Paneroa stachyofolia type species; Mexican Asteraceae) New taxa I have described: 57. New taxa described by me or others based on my collections: approximately 70. FIELD EXPERIENCE Numbered collections to date: 8873. 1985 Mexico (Aug-Oct). 1986 Mexico (Sep). 1987 Ecuador and Peru (Jun-Jul). 1988 Argentina, Ecuador, and Peru (Feb-Apr), Ecuador (Jun-Jul), Mexico (Sep). 1989. Mexico (Dec). 1990 Mexico (Sep), Mexico (Nov). 1991 Mexico (Aug-Sep), Mexico (Sep-Nov), Venezuela (Nov- Dec). 1992 Costa Rica (Jan), Mexico (Feb-Mar), Ecuador (Jul), Mexico (Nov), Mexico (Dec). 1993 Mexico (Jan), Mexico (Aug-Sep). 1994. Mexico (Mar), Mexico (June-August), Mexico (October- November), South Africa (November). 1995 Mexico (March), Mexico (May-June). 1996 Mexico (February), Malaysia (including Borneo), Taiwan (May-June), Mexico (June-July), Mexico (Oct- Nov). 1997. Canary Islands and central Spain (May), Mexico (October). 1999 Mexico (March). Mexico (August). 2000 Peru (May-June). 2001: Mexico (March). 2002: Mexico (March, October). 2003. Argentina, Chile (January-March), western USA (May). 2004. western USA (April-May). 2005), western USA (June). Mexico (December). 2006. western USA, Texas (April). 2007. western USA (August). 2008. western USA (August). 2009-2016. various trips to southern and western Texas, Sw USA. PROFESSIONAL MEMBERSHIPS Botanical Society of America CONFERENCE PRESENTATIONS/POSTERS 2016. October 5-8, Buenos Aires, Argentina. Willi Hennig Society. Ospina, J.J., Freire, S.E., Scataglini, M.A., Panero, J.L., Correa, C.M., Aagesen, L. Phylogenetic and biogeographic approach to the genus Flourensia (Asteraceae, Heliantheae). Presentation 2016. October 5-8, Buenos Aires, Argentina. Willi Hennig Society. Ospina, J.J., Freire, S.E., Scataglini, M.A., Panero, J.L., Correa, C.M., Aagesen, L. Testing the monophyly and placement of Flourensia in the tribe Heliantheae (Asteraceae). Presentation 2016. July. Savannah, Georgia. Botanical Society of America. Schilling, E.E. Panero. J.L. A changed circumscription of Eupatorium alters its biogeographic history. Presentation 2016. June. Austin, Texas. Society for the Study of Evolution. Rivera V.L., Panero, J.L. Cerrado and Atlantic Forest Eupatorieae (Asteraceae): divergence times, diversification patterns and biogeographic history. Presentation 2015. Guaruja, Brazil. Society for the Study of Evolution. Phylogeny and evolutionary diversification of a South American radiation: the Brazilian Eupatorieae (Asteraceae). Presentation 2015. Melbourne, Australia. ComBio conference. How a protein is born: the de novo evolution of a buried seed protein and its divergence over 40 million years. Jayasena et al. Poster 2013 Elliott, A.G., Delay, C., Liu, H., Phua, Z., Rosengren, K.J., Benfield, AH., Panero, J.L., Colgrave, M.L., Jayasena, A.S., Schilling., E.E., Ortiz-Barrientos, D., Craik, D.J., Mylne, J.S. Convergent volution within a novel seed peptide family upon a protein motif with protease inhibitory sequence, structure 3 and function ComBio, Perth Australia. 2007. San Diego, USA. Plant and Animal Genome Conference: Sunflower Genome. How many genes are needed to resolve the tree of life of sunflowers? A multilocus chloroplast study reveals many more major lineages and a new paradigm in Asteraceae systematics. Presentation 2005. Vienna, Austria. International Botanical Congress. Systematics of subfamily Helianthoideae (Asteraceae). Presentation COURSES TAUGHT Structure, Physiology and Reproduction of Seed Plants (BIO 322) and associated lab (BIO 122L) Science Literacy and Numeracy BIO 302D (University of Texas). Biology for non-majors. Synantherology BIO 386
Load more

Recommended publications
  • A Phylogenetic Framework for Evolutionary Study of the Nightshades
    Särkinen et al. BMC Evolutionary Biology 2013, 13:214 http://www.biomedcentral.com/1471-2148/13/214 RESEARCH ARTICLE Open Access A phylogenetic framework for evolutionary study of the nightshades (Solanaceae): a dated 1000-tip tree Tiina Särkinen1,2*, Lynn Bohs3, Richard G Olmstead4 and Sandra Knapp1 Abstract Background: The Solanaceae is a plant family of great economic importance. Despite a wealth of phylogenetic work on individual clades and a deep knowledge of particular cultivated species such as tomato and potato, a robust evolutionary framework with a dated molecular phylogeny for the family is still lacking. Here we investigate molecular divergence times for Solanaceae using a densely-sampled species-level phylogeny. We also review the fossil record of the family to derive robust calibration points, and estimate a chronogram using an uncorrelated relaxed molecular clock. Results: Our densely-sampled phylogeny shows strong support for all previously identified clades of Solanaceae and strongly supported relationships between the major clades, particularly within Solanum. The Tomato clade is shown to be sister to section Petota, and the Regmandra clade is the first branching member of the Potato clade. The minimum age estimates for major splits within the family provided here correspond well with results from previous studies, indicating splits between tomato & potato around 8 Million years ago (Ma) with a 95% highest posterior density (HPD) 7–10 Ma, Solanum & Capsicum c. 19 Ma (95% HPD 17–21), and Solanum & Nicotiana c. 24 Ma (95% HPD 23–26). Conclusions: Our large time-calibrated phylogeny provides a significant step towards completing a fully sampled species-level phylogeny for Solanaceae, and provides age estimates for the whole family.
    [Show full text]
  • Jiménez Arellanes MA, Et Al. Brickellia Paniculata (Mill.) B.L. Rob: A
    International Journal of Pharmacognosy & Chinese Medicine ISSN: 2576-4772 MEDWIN PUBLISHERS Committed to Create Value for researchers Brickellia paniculata (Mill.) B.L. Rob: A Review of Medicinal Uses and Chemo-Biological Potential Olivares A1, Santos I1 and Jiménez-Arellanes MA2* Research Article 1Medical Research Unit in Reproductive Medicine, Mexico Volume 4 Issue 1 2Medical Research Unit in Pharmacology, UMAE Hospital de Especialidades, Instituto Mexicano Received Date: April 21, 2020 del Seguro Social (IMSS), Mexico Published Date: June 03, 2020 DOI: 10.23880/ipcm-16000199 *Corresponding author: María Adelina Jiménez-Arellanes, Medical Research Unit in Pharmacology, UMAE Hospital de Especialidades, Instituto Mexicano del Seguro Social (IMSS), Mexico, Email: [email protected] Abstract Medicinal plants (MP) are a reservoir of chemical structures and have great economic importance due to their diverse biological activities. These are used by more than 80% of the world population, for this reason these are overexploited because they are a source of main drug (taxol, morphine, vincristine, vinblastine, artemisinin, galegin, etc.), and also have high nutritional, timber, cosmetic, and/or agricultural value. At present, China exports 120,000 tons of MP, India about 32,000 tons while Europe imports 400,000 tons; this overexploitation has caused many of these plants to be in danger of extinction. Also, MP are raw material for the development of phytodrugs such as Ginseng, Hyperikan, EchinaceA, Kava-kava, Vitango, Plantival, Prostasan Brickellia paniculata is widely used in Mexico in traditional medicine, and has been poorly investigated from the chemical and biological point of view; so in this among others, whose therapeutic efficacy and safety has been scientifically assayed.
    [Show full text]
  • Malpighiaceae De Colombia: Patrones De Distribución, Riqueza, Endemismo Y Diversidad Filogenética
    DARWINIANA, nueva serie 9(1): 39-54. 2021 Versión de registro, efectivamente publicada el 16 de marzo de 2021 DOI: 10.14522/darwiniana.2021.91.923 ISSN 0011-6793 impresa - ISSN 1850-1699 en línea MALPIGHIACEAE DE COLOMBIA: PATRONES DE DISTRIBUCIÓN, RIQUEZA, ENDEMISMO Y DIVERSIDAD FILOGENÉTICA Diego Giraldo-Cañas ID Herbario Nacional Colombiano (COL), Instituto de Ciencias Naturales, Universidad Nacional de Colombia, Bogotá D. C., Colombia; [email protected] (autor corresponsal). Abstract. Giraldo-Cañas, D. 2021. Malpighiaceae from Colombia: Patterns of distribution, richness, endemism, and phylogenetic diversity. Darwiniana, nueva serie 9(1): 39-54. Malpighiaceae constitutes a family of 77 genera and ca. 1300 species, distributed in tropical and subtropical regions of both hemispheres. They are mainly diversified in the American continent and distributed in a wide range of habitats and altitudinal gradients. For this reason, this family can be a model plant group to ecological and biogeographical analyses, as well as evolutive studies. In this context, an analysis of distribution, richness, endemism and phylogenetic diversity of Malpighiaceae in natural regions and their altitudinal gradients was undertaken. Malpighiaceae are represented in Colombia by 34 genera and 246 species (19.1% of endemism). Thus, Colombia and Brazil (44 genera, 584 species, 61% of endemism) are the two richest countries on species of this family. The highest species richness and endemism in Colombia is found in the lowlands (0-500 m a.s.l.: 212 species, 28 endemics); only ten species are distributed on highlands (2500-3200 m a.s.l.). Of the Malpighiaceae species in Colombia, Heteropterys leona and Stigmaphyllon bannisterioides have a disjunct amphi-Atlantic distribution, and six other species show intra-American disjunctions.
    [Show full text]
  • ESPECIES VENEZOLANAS DEL GÉNERO CRITONIA (ASTERACEAE) Species of Critonia Genus in Venezuela (Asteraceae) Carmen E
    ACTA BOT. VENEZ. 34 (2): 407-416. 2011 407 ESPECIES VENEZOLANAS DEL GÉNERO CRITONIA (ASTERACEAE) Species of Critonia genus in Venezuela (Asteraceae) Carmen E. BENÍTEZ DE ROJAS Instituto de Botánica Agrícola, Facultad de Agronomía, Universidad Central de Venezuela Apartado 4579, Maracay, estado Aragua [email protected] RESUMEN Critonia P. Browne, de la subfamilia Asteroideae, tribu Eupatorieae, está represen- tado por 40 especies que se extienden desde las Antillas, América Central hasta Argentina. En Venezuela están presentes Critonia eggersii, C. heteroneura, C. morifolia y C. naigua- tensis. Como parte del proyecto “Contribución al estudio de las Asteraceae”, en el presente trabajo se describen y diferencian entre sí, las cuatro especies hasta hoy reportadas para Ve- nezuela, considerándose también el estatus actual de su nomenclatura. Asimismo, se pre- senta una clave para las especies de Critonia en el país y se acompaña cada especie con una ilustración detallada y aspectos fitogeofráficos de las mismas. Palabras clave: Asteraceae, Critonia, Venezuela ABSTRACT Critonia P. Browne, of the subfamily Asteroideae, tribe Eupatorieae, is represented by 40 species extended from the Antillas, Central America to Argentina. In Venezuela C. eggersii, C. heteroneura, C. morifolia and C. naiguatensis are present. As part of the on- going project “Contribution to study of the family Asteraceae”, in the present work, the four species reported to Venezuela are described considering their current nomenclature status. A key for the Critonia species
    [Show full text]
  • Flora Vol 3 FC
    PLANTS+ OF THE BLACK RANGE OF NEW MEXICO Volume Three Arranged by english common name This checklist recognizes the plant collecting efforts of Anna Isabel Mulford in the Black Range during 1895. PLANTS+ OF THE BLACK RANGE OF NEW MEXICO An Annotated Checklist Edition One of Volume three This checklist of the plants (including a few lichen and other Black Range website, a search for specimen sheets was non-plant species) of the Black Range of southwestern New conducted; Mexico draws from a variety of sources. It is a work in progress and undoubtedly contains errors. If you encounter ✦ If a specimen sheet from the Black Range was located errors of substantive omission or commission or for the species, an entry noting this was made in the administrative errors (broken or incorrect links, spelling, notes column. The name of the collector and the etc.) please let me know at [email protected] so that general location where the specimen was collected the errors can be corrected in the second edition. Your help was entered in the notes column as a link to the in this manner will be of benefit to the general community. specimen sheet. Such entries are shown in dark blue. Methodology ✦ Species which are not verified for the Black Range are indicated by a light blue “cell filling” in the first cell in This checklist was put together in the following manner: the species row. ✦ A search of the SEINet data base (Arizona & New Mexico Chapters) was conducted to determine the Disclaimers and possible species in the Black Range; Points of Clarification ✦ A preliminary search of the Consortium of North In some cases, you may note that an entry from the Vascular American Lichen Herbaria data base was conducted to Plants of the Gila Wilderness data base has been entered on determine possible species in the Black Range (this the checklist but the initial cell of the species listing is filled work is incomplete); in light blue indicating that the species was not verified for the Black Range following the process described above.
    [Show full text]
  • Split Rock Trail Most Diverse Vegetation Types in North America
    Species List Species List National Park Service U.S. Department of the Interior Color Species Habit Season Color Species Habit Season Section 2, ■ • Section 1 W Ambrosia dumosa (burrobush) S C Y Opuntia chlorotica (pancake cactus) C c Joshua Tree National Park W Brickellia atractyloides (pungent brickellia) S c Y Rhus aromatica (skunk bush) s C w Caulanthus cooperi (Cooper's caulanthus) A c Y Senegalia greggii (cat's claw acacia) s H % w Chaenacf/s srew'o('c/es (Esteve's pincushion) A c Y Senna armata (desert senna) s C, H w Cryptantha barbigera (bearded forget-me-not) A c Y Tetradymia stenolepis (Mojave cottonthorn) s H w Cryptantha nevadensis (Nevada forget-me-not) A c 0 Adenophyllum porophylloides (San Felipe dyssodia) SS C, H tv w Eriogonum davidsonii (Davidson's buckwheat) A c, H 0 Sphaeraicea ambigua (apricot mallow) p C V w Eriogonum fasciculatum (California buckwheat) S C, H p Allium parishii (Parish's onion) B C \ w Eriogonum wrightii (Wright's buckwheat) SS H p Cylindropuntia ramosissima (pencil cholla) c H t Section 4 w Euphorbia albomarginata (rattlesnake weed) A C, H I p Echinocereus engelmannii (hedgehog cactus) c C P- ♦ Section 31 w Galium stellatum (starry bedstraw) SS C p Krameria erecta (littieleaf ratany) s C W/P Giliastellata (stargiiia) A C P/W Mirabilis laevis (wishbone bush) p c w Lepidium lasiocarpum (white pepperweed) A c _PJ Opuntia basilaris (beavertai! cactus) c c N w Lycium andersonii (Anderson's boxthorn) S c p Stephanomeria exigua (small wirelettuce) A C,H A w Lydum cooperi (Cooper's boxthorn) s c p Stephanomeria parryi (Parry's wirelettuce) P c w Nolina parryi (Parry nolina) s c p IStephanomeria paudflora (brownplume wirelettuce) SS c 0 500 2000 Feet w Pectocarya recurvata (arched-nut comb-bur) A c Boechera xylopoda (bigfoot hybrid rockcress) P c 0 150 600 Meters w Pecfocarya serosa (round-nut comb-bur) A c Delphinium parishii (Parish's larkspur) P c See inside of guide for plants found in each section of this map.
    [Show full text]
  • Checklist Das Spermatophyta Do Estado De São Paulo, Brasil
    Biota Neotrop., vol. 11(Supl.1) Checklist das Spermatophyta do Estado de São Paulo, Brasil Maria das Graças Lapa Wanderley1,10, George John Shepherd2, Suzana Ehlin Martins1, Tiago Egger Moellwald Duque Estrada3, Rebeca Politano Romanini1, Ingrid Koch4, José Rubens Pirani5, Therezinha Sant’Anna Melhem1, Ana Maria Giulietti Harley6, Luiza Sumiko Kinoshita2, Mara Angelina Galvão Magenta7, Hilda Maria Longhi Wagner8, Fábio de Barros9, Lúcia Garcez Lohmann5, Maria do Carmo Estanislau do Amaral2, Inês Cordeiro1, Sonia Aragaki1, Rosângela Simão Bianchini1 & Gerleni Lopes Esteves1 1Núcleo de Pesquisa Herbário do Estado, Instituto de Botânica, CP 68041, CEP 04045-972, São Paulo, SP, Brasil 2Departamento de Biologia Vegetal, Instituto de Biologia, Universidade Estadual de Campinas – UNICAMP, CP 6109, CEP 13083-970, Campinas, SP, Brasil 3Programa Biota/FAPESP, Departamento de Biologia Vegetal, Instituto de Biologia, Universidade Estadual de Campinas – UNICAMP, CP 6109, CEP 13083-970, Campinas, SP, Brasil 4Universidade Federal de São Carlos – UFSCar, Rod. João Leme dos Santos, Km 110, SP-264, Itinga, CEP 18052-780, Sorocaba, SP, Brasil 5Departamento de Botânica – IBUSP, Universidade de São Paulo – USP, Rua do Matão, 277, CEP 05508-090, Cidade Universitária, Butantã, São Paulo, SP, Brasil 6Departamento de Ciências Biológicas, Universidade Estadual de Feira de Santana – UEFS, Av. Transnordestina, s/n, Novo Horizonte, CEP 44036-900, Feira de Santana, BA, Brasil 7Universidade Santa Cecília – UNISANTA, R. Dr. Oswaldo Cruz, 266, Boqueirão, CEP 11045-907,
    [Show full text]
  • Curriculum Vitae
    CURRICULUM VITAE ANTECEDENTES PERSONALES Apellido y nombres: FREIRE, Susana Edith e-mail: [email protected]; [email protected] TÍTULOS UNIVERSITARIOS - Licenciado en Botánica. Título expedido por la Facultad de Ciencias Naturales y Museo de la Universidad Nacional de La Plata, 20 de diciembre de 1976. Promedio general de la carrera: 9,13 - Doctor de Ciencias Naturales (Orientación Botánica). Título expedido por la Facultad de Ciencias Naturales y Museo de la Universidad Nacional de La Plata, 6 de julio de 1984. - Ingeniero Forestal. Título expedido por la Facultad de Ciencias Agrarias y Forestales de la Universidad Nacional de La Plata, 27 de diciembre de 1978. Promedio general de la carrera: 8 CATEGORÍA UNLP DE DOCENTE - INVESTIGADOR Fecha y categoría de ingreso: B (Abril 1994) Situación actual: Categoría I (Junio 2005) CARGOS ACTUALES - Miembro de la Carrera del Investigador Científico, CONICET. 10-VIII-1987. Clase: Investigador Independiente. A partir del 25-II-1999. - Profesor Titular Dedicación Simple. Cátedra de Botánica Sistemática II. Facultad de Ciencias Naturales y Museo de la Universidad Nacional de La Plata. Cargo por concurso 1-X-2013. - Miembro del Consejo Directivo del Instituto Darwinion (IBODA), San Isidro, Argentina. Julio 2013 - Miembro Suplente del Consejo Consultivo Departamental de Botánica. Facultad de Ciencias Naturales y Museo, UNLP. Agosto 2014. 1 CARGOS DESEMPEÑADOS EN DOCENCIA - Ayudante-de segunda interino ad-honorem en la Cátedra: de Sistemática de Plantas Vasculares, Facultad de Ciencias Naturales y Museo, UNLP. VI- 1975/XII-1976 - Ayudante Diplomado de Morfología y Sistemática Vegetal, con carácter interino, Simple en la Cátedra de Morfología y Sistemática Vegetal, Facultad de Agronomía, UNLP.
    [Show full text]
  • Alejandro Urzúa∗, Rocío Santander, Javier Echeverría
    J. Chil. Chem. Soc., 52, Nº 3 (2007) Short Communication ANALYSIS OF SURFACE AND VOLATILE COMPOUNDS OF FLOWER HEADS OF FLOURENSIA THURIFERA (MOL) D.C. ALEJANDRO URZÚA∗, ROCÍO SANTANDER, JAVIER ECHEVERRÍA Universidad de Santiago de Chile, Facultad de Química y Biología, Departamento de Ciencias del Ambiente, Laboratorio de Química Ecológica, Casilla- 40, Correo- 33, Santiago, Chile. (Received 26th March 2007 – Accepted 11th June 2007) ABSTRACT Surface compounds were obtained by a methylene chloride extraction of fresh flower heads of Flourensia thurifera. The methylene chloride extract was purified by column chromatography and analyzed by GC-MS, leading to the identification of several monoterpenes, sesquiterpenes and diterpenes. A hydrocarbon fraction of n-alkanes from C23 to C31 and C33 was also identified. Headspace analysis of the fresh flower heads was also carried out. Different proportions of the same mono- and some of the sesquiterpenes were identified in the volatile fraction. The presence of mono- and sesquiterpenes in the flower heads is in agreement with the fact that these families of compounds have been identified in other Flourensia species. keywords: Flourensia thurifera.; Asteraceae; Flower heads; Methylene chloride extract; Headspace; GC-MS; Monoterpenes; Sesquiterpenes; Diterpenes; Hydrocarbons INTRODUCTION and nitrogen with no detectable organic impurities, was attached through a regulator which controlled the air flow. At the outlet, a column was attached Flourensia thurifera (Mol.) D.C. (Asteraceae, Heliantheae) is a shrub which contained Porapak Q (100 mg). Volatile entrainment (5 h with air flow with attractive yellow flowers from 8 to 10 cm in diameter. The plant is found of 0.5 L/min) commenced immediately after the flowers had been severed from in semi-arid land in Central Chile from Los Vilos (32°S latitude) to beyond the plants.
    [Show full text]
  • Relações Filogenéticas Na Subtribo Ecliptinae (Asteraceae: Heliantheae)
    NOTA CIENTÍFICA Relações Filogenéticas na subtribo Ecliptinae (Asteraceae: Heliantheae) Marta Dias de Moraes1, José L. Panero2 e João Semir3 Introdução Resultados De acordo com a circunscrição de Robinson [1], Análises de parcimônia máxima da matriz dos Ecliptinae tornou-se a maior e morfologicamente a dados combinados dos cpDNA resultaram em 3.600 mais diversa das subtribos de Heliantheae, contendo 66 árvores igualmente parcimoniosas, cada uma com dos aproximadamente 260 gêneros da tribo. O trabalho 1.105 passos, índice de consistência (CI) de 0,63 de Panero et al. [2] utilizando sítios de restrição do (excluindo autapomorfias) e um índice de retenção DNA de cloroplasto (cpDNA) revelou que Ecliptinae (RI) de 0,85. Para as seqüências de cpDNA, 551 dos como circunscrita por Robinson [1] não é monofilética 8.052 estados de caráter foram variáveis e 299 (3,7%) e que os membros desta subtribo encontram-se foram filogeneticamente informativos. A árvore de distribuídos entre quatro linhagens dentro de consenso obtida do bootstrap é mostrada na Fig. 1. Heliantheae. Este resultado levou a uma circunscrição mais estreita da subtribo Ecliptinae, que em sua maior Discussão parte coincide com a circunscrição de “Wedelia group” O clado Monactis: A resolução deste clado de Karis & Ryding [3] baseada em micro-caracteres e incluindo Monactis, Idipopappus e Kinganthus, todos morfologia de inflorescência. endêmicos dos Andes, como o grupo basal de Como circunscrita presentemente [2], a subtribo Ecliptinae confirma os resultados de Panero et al. [2]. Ecliptinae inclui Clibadium L e gêneros relacionados Este clado compreende espécies arborescentes com de Clibadiinae sensu Robinson [1], contendo 49 cipselas prismáticas não constritas e com carpopódio gêneros com a maioria deles restritos ao México e anular a curto-cilíndrico.
    [Show full text]
  • Impacto De Los Cambios Climáticos Y Uso De Suelo, En La Distribución De Las Especies De Géneros Endémicos De Asteraceae De Arequipa
    Quipuscoa et al.: Impacto de cambios climáticos, en la distribución de especies de géneros endémicos de Asteraceae de Arequipa Arnaldoa 26 (1): 71-96, 2019 ISSN: 1815-8242 (edición impresa) http://doi.org/10.22497/arnaldoa.261.26105 ISSN: 2413-3299 (edición online) Impacto de los cambios climáticos y uso de suelo, en la distribución de las especies de géneros endémicos de Asteraceae de Arequipa Impact of climate changes and land use in the distribution of species of endemic genera of Asteraceae from Arequipa Victor Quipuscoa Silvestre Departamento de Biología, Universidad Nacional de San Agustín, Arequipa, Perú ([email protected]) Michael O. Dillon Botany Department, The Field Museum, Chicago, IL 60605-2496, USA ([email protected]) Ítalo Treviño Zevallos, Margarita Balvin Aguilar; Adolfo Mejía Rios; Daniel Ramos Aranibar; Károl Durand Vera; Daniel Montesinos Tubée Instituto Científico Michael Owen Dillon-IMOD 26 (1): Enero - Abril, 2019 71 Quipuscoa et al.: Impacto de cambios climáticos, en la distribución de especies de géneros endémicos de Asteraceae de Arequipa Recibido: 15-I-2018; aceptado: 21-II-2019; publicado online: 10-IV-2019; publicado impreso: 30-IV-2019 Resumen La cordillera de los Andes es uno de los centros de especiación o hotspots del mundo con una gran cantidad de plantas endémicas; sin embargo, el cambio constante del clima y el uso de la tierra están afectando significativamente la diversidad y distribución de las especies. Estos cambios probablemente afectarán la distribución de Chionopappus benthamii S.F. Blake y Paquirea lanceolata (H. Beltrán & Ferreyra) Panero & S.E. Freire, dos especies que representan géneros endémicos en el Perú.
    [Show full text]
  • Recommendation of Native Species for the Reforestation of Degraded Land Using Live Staking in Antioquia and Caldas’ Departments (Colombia)
    UNIVERSITÀ DEGLI STUDI DI PADOVA Department of Land, Environment Agriculture and Forestry Second Cycle Degree (MSc) in Forest Science Recommendation of native species for the reforestation of degraded land using live staking in Antioquia and Caldas’ Departments (Colombia) Supervisor Prof. Lorenzo Marini Co-supervisor Prof. Jaime Polanía Vorenberg Submitted by Alicia Pardo Moy Student N. 1218558 2019/2020 Summary Although Colombia is one of the countries with the greatest biodiversity in the world, it has many degraded areas due to agricultural and mining practices that have been carried out in recent decades. The high Andean forests are especially vulnerable to this type of soil erosion. The corporate purpose of ‘Reforestadora El Guásimo S.A.S.’ is to use wood from its plantations, but it also follows the parameters of the Forest Stewardship Council (FSC). For this reason, it carries out reforestation activities and programs and, very particularly, it is interested in carrying out ecological restoration processes in some critical sites. The study area is located between 2000 and 2750 masl and is considered a low Andean humid forest (bmh-MB). The average annual precipitation rate is 2057 mm and the average temperature is around 11 ºC. The soil has a sandy loam texture with low pH, which limits the amount of nutrients it can absorb. FAO (2014) suggests that around 10 genera are enough for a proper restoration. After a bibliographic revision, the genera chosen were Alchornea, Billia, Ficus, Inga, Meriania, Miconia, Ocotea, Protium, Prunus, Psidium, Symplocos, Tibouchina, and Weinmannia. Two inventories from 2013 and 2019, helped to determine different biodiversity indexes to check the survival of different species and to suggest the adequate characteristics of the individuals for a successful vegetative stakes reforestation.
    [Show full text]