Taxonomic Revision of Passiflora section Xerogona (Raf.) Killip (Passifloraceae)

Passiflora subgenus Decaloba section Xerogona is a group of herbaceous vines found in subtropical and tropical regions of America. The 15 species, including two subspecies, recognized here are primarily distributed in Central America, with a few also found in South America. The species of the section are recognized by their very unusual dehiscent capsular fruit, absence of bracts and laminar nectaries and their transversely grooved seeds. The section contains two problematic species complexes; P. capsularis and P. rubra. The morphological variation among and within these two complex species are examined in this study using Principal Component Analysis (PCA) based on correlation matrices of morphological characters. The variation of these two complexes was studied throughout their distributional range. Within the P. capsularis complex only one species has been recognized. However, two species were recognized within the P. rubra complex based mainly on floral characters: P. cisnana and P. rubra. A key, detailed descriptions, distribution maps, and photographs are included in the revision. The distribution and ecology of the 15 species recognized are also discussed

¿Cómo avanzar en la conservación de los bosques de Polylepis y su diversidad biológica?

Polylepis is the dominant genus of the high Andean forest vegetation and they have a crucial ecological role. However, these forests are highly endangered and many of their biological aspects are still unknown. In this context, a series of questions were formulated with the aim that their resolution would contribute to a better understanding of Polylepis’dynamics and biological diversity, as well as improve their conservation efforts. Twenty one speakers from the V International Congress of Conservation and Ecology of Polylepis forests participated in the formulation of 67 questions related to these forests. Comments and additional information were received via email and google doc spreadsheet, open to the participants. Afterwards, two workshops were organized with the researchers to formulate, discuss, analyze and define the final list, narrowing down to a total of 40 questions. The questions were categorized into 6 different topics: Taxonomy, Ecology and Biogeography, Genetics, Conservation, Ethnobiology and Climate Change. We hope these questions will be considered as a priority for new research agendas and to define joint efforts for Polylepis forest conservation. El género Polylepis es dominante en los bosques a mayor elevación en los Andes y es de excepcional importancia ecológica. Sin embargo, estos bosques están gravemente amenazados y muchos aspectos de su biología permanecen poco conocidos. A razón de esto, identificamos preguntas que al ser resueltas contribuirán al mejor entendimiento de la dinámica de los bosques de Polylepis y con esto mejorar las acciones para su conservación y su diversidad biológica. Veintiún conferencistas que asistieron al V Congreso Internacional de Ecología y Conservación de los bosques de Polylepis participaron en la formulación de 67 preguntas asociadas a estos bosques. Los comentarios e insumos fueron recibidos mediante correo electrónico y a través de una matriz desarrollada en hojas de cálculo de google compartida con los participantes. Se realizaron dos talleres continuos con los investigadores, obteniendo una lista final de 40 preguntas formuladas, discutidas, analizadas y consensuadas. Las preguntas están divididas en 6 áreas temáticas: Taxonomía, Ecología y Biogeografía, Genética, Conservación, Etnobiología y Cambio Climático. Esperamos que estas preguntas sean consideradas como prioritarias para la agenda de investigación ya que pretenden generar un marco general para definir esfuerzos conjuntos para la conservación de los bosques de Polylepis

A Regional Red List of Montane Tree Species of the Tropical Andes: Trees at the top of the world

Andean montane forests are a major global conservation priority owing to their biological richness and high level of species endemism. Botanically the Andes are very rich in species but they remain relatively unstudied. In common with montane forests elsewhere in the world, Andean forests are of great value for the provision of ecosystem services relating to water supply, regulation of regional climate and the capture and storage of carbon. The forests and their component species are however under threat. This report summarises information drawn from a wide variety of sources to provide a regional Red List of trees of Andean tropical montane forests. The species evaluation process has drawn on published national red lists of threatened species, botanical literature, specimen databases, forestry information and expert knowledge. The IUCN Red List Categories and Criteria have been used for the evaluation and a component of Natalia?s PhD study has been to evaluate their use for species with limited and dispersed data. Understanding the geographical distribution of the species is very important in conservation assessment. The maps produced for this study are a valuable starting point for the Red Listing and a baseline for monitoring impacts of climate change. In this assessment 70 species are recorded as globally threatened based on the IUCN Red List of Categories and Criteria out of 127 tree species evaluated. In addition 165 national endemic trees of the region have previously been evaluated as globally threatened based on the same IUCN process. In total therefore 235 tree species are currently considered to be threatened with extinction within the Andean montane forests.Fil: Tejedor Garavito , Natalia. Bournemouth University; Reino UnidoFil: Álvarez Dávila, Esteban. Jardín Botánico de Medellín; ColombiaFil: Caro, Sandra Arango. Missouri Botanical Garden; Estados UnidosFil: Murakami, Alejandro Araujo. Museo de Historia Natural Noel Kempff Mercado; BoliviaFil: Baldeón, Severo. Universidad Nacional Mayor de San Marcos; PerúFil: Beltrán, Hamilton. Universidad Nacional Mayor de San Marcos; PerúFil: Blundo, Cecilia Mabel. Universidad Nacional de Tucumán. Facultad de Ciencias Naturales e Instituto Miguel Lillo; Argentina. Universidad Nacional de Tucumán. Facultad de Ciencias Naturales e Instituto Miguel Lillo. Laboratorio de Investigaciones Ecológicas de las Yungas; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán; ArgentinaFil: Boza Espinoza, Tatiana Erika. Missouri Botanical Garden; Estados UnidosFil: Fuentes Claros, Alfredo. Herbario Nacional de Bolivia; BoliviaFil: Gaviria, Juan. Universidad de Los Andes; VenezuelaFil: Gutiérrez, Néstor. Universidad de Los Andes; VenezuelaFil: Khela, Sonia. Botanic Gardens Conservation International; Reino UnidoFil: León, Blanca. University of Texas at Austin; Estados UnidosFil: la Torre Cuadros, Maria De Los Angeles. Universidad Nacional Agraria; PerúFil: López Camacho, René. Universidad Distrital; ColombiaFil: Malizia, Lucio Ricardo. Universidad Nacional de Jujuy. Facultad de Ciencias Agrarias. Centro de Estudios Ambientales Territoriales y Sociales; ArgentinaFil: Millán, Betty. Universidad Nacional Mayor de San Marcos; PerúFil: Moraes R., Mónica. Herbario Nacional de Bolivia; BoliviaFil: Newton, Adrian C.. Bournemouth University; Reino UnidoFil: Pacheco, Silvia. Fundación Proyungas; ArgentinaFil: Reynel, Carlos. Universidad Nacional Agraria; PerúFil: Ulloa Ulloa, Carmen. Missouri Botanical Garden; Estados UnidosFil: Vacas Cruz,Omar. Pontificia Universidad Católica del Ecuador; Ecuado

A monograph of the genus Polylepis (Rosaceae)

We present a monograph of the high Andean tree genus Polylepis (Rosaceae), based on a species concept considering morphological, climatic and biogeographic distinctness as indicators of evolutionary independence. In total, we recognize 45 species of Polylepis, grouped in five sections. Polylepis sect. Sericeae is represented by 15 species in four subsections, P. sect. Reticulatae by seven species, P. sect. Subsericantes by three species, P. sect. Australes by two species and P. sect. Incanaee by three subsections with 18 species. We describe seven new species, one from Colombia (P. frontinensis), one from Ecuador (P. simpsoniae) and five from Peru (P. acomayensis, P. fjeldsaoi, P. occidentalis, P. pilosissima and P. sacra). Three species from Peru (P. albicans, P. pallidistigma and P. serrata) are re-instated as valid species. Two taxa from Bolivia (P. incanoides and P. nana) are elevated from subspecies to species rank. The morphology, habitat, distribution, ecology and conservation status of each species are documented. We also provide an identification key to the species of the genus and general introductions on taxonomic history, morphology, evolution, ecology and conservation

Guard cell sizes and ploidy levels in Polylepis (Rosaceae)

The Andean tree genus Polylepis (Rosaceae) has recently been recognized to include polyploid species, but their occurrence within the genus is still incompletely known, especially in light of a forthcoming taxonomic treatment based on a narrow species concept including morphological, climatic and biogeographic distinctness that recognizes 45 species. We obtained guard cell measurements as proxies of ploidy level from 114 individuals of 33 species of Polylepis, including all species for which no previous measurements were available. In combination with previously published data, also on nucleus mass and chromosome counts, we infer that on current knowledge 19 (42%) species are probably purely diploid, 15 (33%) purely tetraploid, and one (2%) purely octoploid. The remaining eight (18%) species have mixed ploidy levels, with three (7%) being di- and tetraploid, two (4%) di- and hexaploid, and one each tetra- and hexaploid, tetra- and octoploid, and di-, tri-, tetra- and hexaploid. Based on our understanding of the evolutionary relationships in Polylepis, it would appear that polyploidy has originated at least about eight times independently in the genus, sometimes as autopolyploidy, sometimes as a result of interspecific hybridization, and sometimes in relation to cultivation. The taxonomic implications of the ploidy levels are complex, in some cases supporting species-level distinction and in others posing the question whether different ploidy levels within a species should better be treated as distinct species. Ploidy level needs to be taken into account for the conservation of the genus, as for example if different populations of a species have different ploidy levels, mixing these origins in reforestation schemes may lead to the formation of sterile hybrids. Guard cell measurement is a low cost and simple technique that can be readily used on both live and dried plant material for such applications, but it has limitations and further data on chromosome counts and nucleus mass are also needed to fully understand the evolution of ploidy levels in Polylepis and its implications

A taxonomic revision of Passiflora sect. Xerogona (Passifloraceae) using pricipal component analysis

In subgenus Decaloba (DC.) Rchb. of Passiflora L., the section Xerogona (Raf.) Killip (Passifloraceae) is a group of herbaceous vines found in subtropical and tropical regions of the Americas. Primarily distributed in Central America, with a few also found in the West Indies and South America, the species of Passiflora sect. Xerogona are recognized by their unusual dehiscent capsular fruit, the absence of bracts and laminar nectaries, and their transversely grooved seeds. Passiflora tenella Killip is the only species included in Passiflora sect. Xerogona with a fruit that does not appear to be a capsule, but the shape of the leaves and the absence of floral bracts and laminar nectaries suggest affiliation with this section. Fifteen species, including two subspecies, are recognized within Passiflora sect. Xerogona. Passiflora cobanensis Killip is distinguished as two subspecies, P. cobanensis subsp. cobanensis and P. cobanensis subsp. brevipes (Killip) T. Boza, with the latter subspecies transferred from P. brevipes Killip. From previous species circumscriptions, this section contains two problematic species complexes for P. capsularis L. and P. rubra L. The morphological variation between and within these two species complexes was examined in this study, using Principal Component Analysis and correlation matrices of morphological characters, and this variation was studied throughout their distributional ranges. Passiflora capsularis is recognized as a single variable species. Two species are recognized within the P. rubra complex, based primarily on floral characters, as P. cisnana Harms and P. rubra. Passiflora cisnana is lectotypified

Taxonomic revaluation of the Polylepis pauta and P. sericea (Rosaceae) from Ecuador

We conducted a taxonomic revaluation of the Polylepis pauta and P. sericea complexes in Ecuador, recognizing five species, three of which are described as new: Polylepis humboldtii sp. nov., P. loxensis sp. nov., P. longipilosa sp. nov., P. ochreata, and P. pauta. We provide descriptions of all species, full specimen citations, and updated keys to genus Polylepis in Ecuador and to the P. pauta and P. sericea complexes in general