Freddy S. Zenteno-Ruíz scite author profile

Pragmatic methods to assess the status of biodiversity at multiple scales are required to support conservation decision-making. At the intersection of several major biogeographic zones, Bolivia has extraordinary potential to develop a monitoring strategy aligned with the objectives of the Group on Earth Observations Biodiversity Observation Network (GEO BON). Bolivia, a GEO Observer since 2005, is already working on the adequacy of national earth observations towards the objectives of the Global Earth Observation System of Systems (GEOSS). However, biodiversity is still an underrepresented component in this initiative. The integration of biodiversity into Bolivia's GEO framework would confirm the need for a country level biodiversity monitoring strategy, fundamental to assess the progress towards the 2020 Aichi targets. Here we analyse and discuss two aspects of the process of developing such a strategy: (1) identification of taxonomic, temporal and spatial coverage of biodiversity data to detect both availability and gaps; and (2) evaluation of issues related to the acquisition, integration and analyses of multi-scale and multi-temporal biodiversity datasets. Our efforts resulted in the most comprehensive biodiversity database for the country of Bolivia, containing 648,534 records for 27,534 species referenced in time and space that account for 92.5% of the species previously reported for the country. We capitalise this information into recommendations for the implementation of the Bolivian Biodiversity Observation Network that will help ensure that biodiversity is sustained as the country continues on its path of development. Pragmatic methods to assess the status of biodiversity at multiple scales are required to support conservation decision-making. At the intersection of several major biogeographic zones, Bolivia has extraordinary potential to develop a monitoring strategy aligned with the objectives of the Group on Earth Observations Biodiversity Observation Network (GEO BON). Bolivia, a GEO Observer since 2005, is already working on the adequacy of national earth observations towards the objectives of the Global Earth Observation System of Systems (GEOSS). However, biodiversity is still an underrepresented component in this initiative. The integration of biodiversity into Bolivia's GEO framework would confirm the need for a country level biodiversity monitoring strategy, fundamental to assess the progress towards the 2020 Aichi targets. Here we analyse and discuss two aspects of the process of developing such a strategy: (1) identification of taxonomic, temporal and spatial coverage of biodiversity data to detect both availability and gaps; and (2) evaluation of issues related to the acquisition, integration and analyses of multi-scale and multi-temporal biodiversity datasets. Our efforts resulted in the most comprehensive biodiversity database for the country of Bolivia, containing 648,534 records *Corresponding author. Email: miguel.fernandez.trigoso@gmail.com . 16, Nos. 2-3, 86-98, http://...

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El género Attalea (Arecaceae) de Bolivia: Afinidades con sistemas ecológicos regionales

Zenteno-Ruíz

2017

Rev peru biol

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La documentación de las especies neotropicales de la familia Arecaceae, basada en los recientes aportes a su taxonomía y su relación con los paisajes naturales, actualiza los patrones espaciales a los cuales se adaptan en su rango de distribución. En este caso se relevan 121 registros de especímenes de las 11 especies del género Attalea de Bolivia y su relación con 30 sistemas ecológicos que aproximan su ámbito de distribución a nivel regional. Para ello se sistematizó, se verificó y corrigieron las coordenadas geográficas vs. localidades de todos los especímenes coleccionados del género Attalea con el fin de cotejarlos con los sistemas ecológicos, utilizando las herramientas del ArgGis. Seguidamente elaboramos un dendrograma (especies vs. sistemas ecológicos) utilizando el método de distancia mínima en el programa R. El análisis de la relación de las especies con los sistemas ecológicos resalta una especie que no compone al sudoeste amazónico: A. eichleri y que procede de sistemas ecológicos del Cerrado. Entre las especies de Attalea amazónicas, A. blepharopus (endémica de Bolivia) se aísla de las demás y el resto subagrupa a especies según su presencia afín en bosques y sabanas, además del subandino y aluvial, como es para A. princeps, que se encuentra en 17 sistemas (57%). Ocho especies de Attalea son comunes con Perú y 10 con Brasil. Es importante relacionar la agrupación jerárquica de las especies de Attalea con los sistemas ecológicos en función a dinámicas paisajísticas para documentar sus patrones de espacio y también para su conservación.

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Una Nueva Especie deDrypetes(Putranjivaceae) de la Amazonía de Bolivia

Zenteno-Ruíz

Fuentes

2015

Novon: A Journal for Botanical Nomenclature

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Consistent spatial patterns across several plant communities within a region indicate that the same processes may be acting on Andean deserts and semideserts

López

Zenteno-Ruíz

Roque‐Marca

et al. 2019

J Vegetation Science

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QuestionsSpatial pattern analysis may be used to derive hypotheses on the processes that shape plant communities. Do different mature semidesert communities exhibit the same major spatial patterns, suggesting that similar processes shape them?LocationNine localities in the Bolivian Andes.MethodsWe mapped all woody individuals at each locality. We performed uni‐, bi‐, and multivariate spatial analyses of nine Andean, mature semiarid plant communities to test for similarity in spatial patterns.ResultsWe found that the nine communities exhibited, in most of the main spatial pattern attributes, close similarities (community aggregation, importance of plant interactions, life form differences, etc.). Some peculiarities were likely due to differences in life form or site history.ConclusionsAt least for Andean semiarid communities, the complete analysis of a representative plot conveys reliable information on spatial relationships and, hence, on potential underlying mechanisms. This shows that the use of 1–2 representative plots can be used to extrapolate to similar communities within a given region. Our results can be used as a plausible hypothesis to be tested in other zones of the planet.

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