The Genus Thionia Stål, 1859 (Hemiptera: Auchenorrhyncha: Issidae) in Colombia: Highlighting the Value of Entomological Collections.

Entomological collections represent a key source of information about the biological heritage of a country. However, the taxonomy and knowledge of many arthropods from megadiverse countries are underrepresented in these natural history collections as is the case with several planthoppers of the suborder Auchenorrhyncha. Issidae are fulgoromorphs distributed worldwide, except the poles and Greenland. Despite this ubiquity, Colombian planthoppers remain very poorly known and studied. Our objective was to provide the first consolidated records and distributional data for Colombian Issidae. We used reports of the representative genus Thionia deposited in biological collections in Colombia. In addition, we linked voucher specimen information and Olson's life zones showing an inter-Andean valley and Eastern Andean Cordillera distribution within Colombia. Our survey of Colombian biological collections revealed 55 individuals of the genus Thionia Stål, 1859 (53 adults, 2 immatures [nymphs]), which were collected by different methods; however, many of those records may be opportunistic. This genus (and its species) needs further study, with systematic and ecological revision, as is the case with other terrestrial Colombian hemipterans. Our consolidated records represent an advance to the knowledge of Issidae (and Thionia specifically) for the Neotropics and Colombia in particular, and a baseline for further study of distributional and biogeographic patterns of the suborder Auchenorrhyncha.

Accelerated shifts in terrestrial life zones under rapid climate change.

Rapid climate change is impacting biodiversity, ecosystem function, and human well-being. Though the magnitude and trajectory of climate change are becoming clearer, our understanding of how these changes reshape terrestrial life zones-distinct biogeographic units characterized by biotemperature, precipitation, and aridity representing broad-scale ecosystem types-is limited. To address this gap, we used high-resolution historical climatologies and climate projections to determine the global distribution of historical (1901-1920), contemporary (1979-2013), and future (2061-2080) life zones. Comparing the historical and contemporary distributions shows that changes from one life zone to another during the 20th century impacted 27 million km2 (18.3% of land), with consequences for social and ecological systems. Such changes took place in all biomes, most notably in Boreal Forests, Temperate Coniferous Forests, and Tropical Coniferous Forests. Comparing the contemporary and future life zone distributions shows the pace of life zone changes accelerating rapidly in the 21st century. By 2070, such changes would impact an additional 62 million km2 (42.6% of land) under "business-as-usual" (RCP8.5) emissions scenarios. Accelerated rates of change are observed in hundreds of ecoregions across all biomes except Tropical Coniferous Forests. While only 30 ecoregions (3.5%) had over half of their areas change to a different life zone during the 20th century, by 2070 this number is projected to climb to 111 ecoregions (13.1%) under RCP4.5 and 281 ecoregions (33.2%) under RCP8.5. We identified weak correlations between life zone change and threatened vertebrate richness, levels of vertebrate endemism, cropland extent, and human population densities within ecoregions, illustrating the ubiquitous risks of life zone changes to diverse social-ecological systems. The accelerated pace of life zone changes will increasingly challenge adaptive conservation and sustainable development strategies that incorrectly assume current ecological patterns and livelihood provisioning systems will persist.

Climate change risks pushing one-third of global food production outside the safe climatic space.

Food production on our planet is dominantly based on agricultural practices developed during stable Holocene climatic conditions. Although it is widely accepted that climate change perturbs these conditions, no systematic understanding exists on where and how the major risks for entering unprecedented conditions may occur. Here, we address this gap by introducing the concept of safe climatic space (SCS), which incorporates the decisive climatic factors of agricultural production: precipitation, temperature, and aridity. We show that a rapid and unhalted growth of greenhouse gas emissions (SSP5-8.5) could force 31% of the global food crop and 34% of livestock production beyond the SCS by 2081-2100. The most vulnerable areas are South and Southeast Asia and Africa's Sudano-Sahelian Zone, which have low resilience to cope with these changes. Our results underpin the importance of committing to a low-emissions scenario (SSP1-2.6), whereupon the extent of food production facing unprecedented conditions would be a fraction.

Assessing the Vulnerability of Military Installations in the Coterminous United States to Potential Biome Shifts Resulting from Rapid Climate Change.

Climate-change impacts to Department of Defense (DoD) installations will challenge military mission and natural resource stewardship efforts by increasing vulnerability to flooding, drought, altered fire regimes, and invasive species. We developed biome classifications based on current climate for the coterminous United States using the Holdridge Life Zone system to assess potential change on DoD lands. We validated classifications using comparisons to existing ecoregional classifications, the distribution of major forest types, and tree species in eastern North America. We projected future life zones for mid- and late-century time periods under three greenhouse gas emission scenarios (low-B1, moderate-A1B, and high-A2) using an ensemble of global climate models. To assess installation vulnerability (n = 529), we analyzed biome shifts using spatial cluster analysis to characterize interregional variation, and identified representative installations for subsequent landscape-level analyses. Although mean annual temperatures are expected to increase, installations located in the Northeast, Lake States, and western Great Plains are likely to experience the largest proportional increases in temperature. Accordingly, forest and grassland communities at these installations managed to support a wide range of training, and environmental objectives may be adversely affected by altered disturbance regimes, heat, and moisture stress. However, precipitation is projected to increase in the Northeast and Lake States mitigating some effects of increased temperatures on biological communities. Given the uncertain response to climate change in different ecoregions, additional environmental and stewardship attributes are needed within a decision-support framework to understand vulnerabilities and provide appropriate responses.

Ecology, endemism, and conservation status of birds that collide with glass windows in Monteverde, Costa Rica

Worldwide, billions of birds die annually due to window collisions. Nevertheless, few accounts document bird-window collisions in the Neotropics. In this study, we document species that collided with windows in Monteverde, Costa Rica, and describe their ecological and conservation status. We gathered information from different sources, including data from museum records and accounts by Monteverde residents who participated as "citizen scientists" between May 2014 and December 2017. We conducted carcass searches between March 2015 and February 2016. We classified window-strike species by migratory, forest dependence, trophic guild, weight, abundance, conservation, and endemism status. We registered 103 species striking windows in Monteverde, which includes 98 of 267 species known to occur in three life zones in Monteverde and five not registered in the area. Window strike casualties' frequencies differed by species, trophic guild and migratory status. Most window victims were residents, small, insectivorous, considered common or fairly common, with declining population trends. The families with the most species represented were Parulidae (14 spp.), Trochilidae (13 spp.), Turdidae (10 spp.), and Tyrannidae (9 spp.). Most species were passerines (Order Passeriformes) (71 spp.). No hawks or vultures were found colliding with buildings. The three species most commonly killed by windows were frugivores: Swainson's Thrush (Catharus ustulatus), Northern Emerald-Toucanet (Aulacorhynchus prasinus), and Black-faced Solitaire (Myadestes melanops). Among window-kills were five species whose status on the IUCN Red List are Near Threatened and one Vulnerable, including the Resplendent Quetzal (Pharomachrus mocinno) and the Three-wattled Bellbird (Procnias tricarunculatus). Six species are listed as in danger of extinction and four are listed as species with reduced populations by the National System of Conservation Areas for Costa Rica (SINAC). 12 endemic species are strike casualties. The premontane wet forest is the life zone where more species were found (n=64 spp.), followed by the premontane moist forest (n = 49 spp.) and the lower montane wet forest (n = 31 spp.). These findings demonstrate the urgent need for conservation measures to mitigate bird mortality due to window collisions. Promoting use of methods to protect birds from windows should be an important goal for this IBA and the rest of Costa Rica. We also recommend collecting data in order to increase understanding about bird window collisions.

Cada año, a nivel global, mueren miles de millones de aves al colisionar contra ventanas. A pesar de ello, pocos registros documentan colisiones aves-ventanas en zonas altamente diversas en el Neotrópico. En este estudio, nosotros documentamos especies que colisionaron en ventanas en Monteverde, Costa Rica y describimos su estatus ecológico y de conservación. Nosotros obtuvimos información de distintas fuentes, incluyendo datos de registros de museos y de observaciones de residentes de Monteverde que participaron como "científicos ciudadanos" entre mayo 2014 y diciembre 2017. Nosotros realizamos búsquedas de cuerpos de aves entre marzo del 2015 y febrero 2016. Clasificamos especies que hubieran golpeado de acuerdo a su estatus de migración, dependencia del bosque, gremio alimentario, peso, abundancia, endemismo y de conservación. Nosotros registramos 103 especies que habían golpeado ventanas en Monteverde (98 de 267 especies documentadas en tres zonas de vida y cinco no registradas en el área). Muchas especies víctima de colisiones se caracterizan por ser residentes, pequeños, insectívoros, considerados comunes o bastante comunes, con poblaciones decrecientes. Las familias más representadas son Parulidae (14 spp.), Trochilidae (13 spp.), Turdidae (10 spp.) y Tyrannidae (9 spp.). La mayoría de las especies son paseriformes (Orden Passeriformes) (71 spp.). Ni gavilanes ni zopilotes golpearon en edificios durante nuestro estudio. Las tres especies más comúnmente muertas por ventanas fueron el Zorzal de Swainson (Catharus ustulatus), el tucancillo verde (Aulacorhynchu sprasinus) y el jilguero (Myadestes melanops). Entre las especies afectadas cinco especies tienen estatus de Casi Amenazadas y una Vulnerable según la Lista Roja de la UICN, incluyendo el Quetzal (Pharomachrus mocinno) y los pájaros campana (Procnias tricarunculatus). Cinco especies están en lista de peligro de extinción y cuatro con poblaciones reducidas según la lista del Sistema Nacional de Áreas de conservación de Costa Rica (SINAC). 12 especies endémicas fueron víctimas de colisiones. El bosque premontano húmedo es la zona de vida donde más especies fueron encontradas (n = 64 spp.), seguidos por el bosque premontano muy húmedo y el bosque muy húmedo montano bajo (n = 31 spp.). Estos hallazgos demuestran la urgente necesidad de implementar medidas de conservación para mitigar la mortalidad de las aves originada por colisión contra ventanas. El aplicar métodos para proteger a las aves de las ventanas debe ser una importante meta para esta AICA así como para el resto de Costa Rica. Recomendamos desarrollar acciones educativas, legales y continuar recolectando información, tanto en Monteverde como en otras áreas de Costa Rica para aumentar el conocimiento acerca de la colisión de aves con ventanas.

Abundancia, diversidad y huella metabólica de comunidades de nematodos en diferentes zonas de vida en la Región Huetar Norte de Costa Rica / Abundance, diversity and metabolic footprint of nematode communities in different life zones in the Region Huetar Norte from Costa Rica

Resumen El estudio de las comunidades bióticas que habitan el suelo y que representan un 25 % de la diversidad existente, es importante para su conservación y aprovechamiento sostenible. Entre la biota edáfica los nematodos se consideran de importancia ecológica como indicadores ambientales. Herramientas como los índices de madurez, los índices de la red trófica y las huellas metabólicas, basadas en la comunidad de nematodos, son utilizadas para evaluar la condición del ecosistema con relación al impacto de contaminantes y otros factores estresantes en los ecosistemas. Los cambios en la estructura y funcionamiento de las redes tróficas del suelo y más recientemente el efecto de los factores climáticos, también tienen impacto en la comunidad nematológica. Costa Rica es un país tropical donde se pueden encontrar gran variedad de microclimas en un área pequeña, esta característica se ve reflejada en las diferentes zonas de vida descritas por Holdridge para el territorio nacional, las cuales difieren en sus patrones de precipitación, temperatura y evapotranspiración. En esta investigación, se aprovechó la diversidad de climas para contribuir con el conocimiento de las comunidades de nematodos de varios ecosistemas en diferentes zonas de vida. Para esto se recolectaron muestras en distintas zonas de vida en la Región Huetar Norte de Costa Rica. Los nematodos presentes en las muestras fueron extraídos e identificados a nivel de familia o género, y con los datos obtenidos se calcularon índices de diversidad, de madurez, de la red trófica y huellas metabólicas. Se obtuvo una gran variación en la abundancia de taxa entre los diferentes tipos de manejo dentro de los ecosistemas; sin embargo, la baja disponibilidad de repeticiones para analizar estadísticamente de manera precisa, hizo que las estimaciones de una media fueran indemostrables numéricamente. No fue posible establecer diferencias significativas entre los ecosistemas con diferentes tipos de manejo respecto a las variables calculadas, lo que se atribuye a la variabilidad de los datos. En cuanto a las zonas de vida, los índices de madurez y de la red trófica no mostraron diferencias entre las mismas, mientras que las huellas metabólicas, así como la biomasa de nematodos se correlacionaron positivamente con éstas. En el bosque húmedo montano bajo, la zona con menor temperatura media anual, la huella metabólica fue mayor, luego la huella metabólica disminuyó en las diferentes zonas de vida en correspondencia con el aumento de la temperatura media anual reportada para cada una. Las huellas metabólicas relacionadas con la descomposición de la materia orgánica del suelo (fungívoros, bacterívoros y enriquecimiento) manifestaron correlaciones altamente significativas. Se plantea que el aumento de las huellas metabólicas conforme disminuye la temperatura evidencia un cambio en la dinámica de la descomposición química y biológica de la materia orgánica del suelo y en el flujo de energía de la red trófica. En otros estudios también se ha concluido que la temperatura es un factor determinante en la distribución de las especies en ecosistemas edáficos, y por lo tanto debería ser objeto de mayor investigación.(AU)

Abstract Soil biotic communities represent 25 % of the existing global diversity, therefore their study is important for their conservation and sustainable use. Among edaphic biota, nematodes are considered ecologically important as environmental indicators. Tools like the maturity indexes, food web diagnostics and metabolic footprints are used in assessing the ecosystem in relation to the impact contaminants and other stressors, as well as monitoring and measuring changes in the structure and dynamics of the food webs and, more recently, to study the impact of climate factors on the nematode community. Costa Rica is a tropical country with a variety of miroclimates in a small area; this attribute is reflected in the different life zones described by Holdridge for Costa Rica, which differ in their patterns of precipitation, temperature and evapotranspiration. In this research, the diversity of climates was exploited in order to contribute with the knowledge of the nematode communities of several ecosystems within different life zones. For this purpose, samples were taken in several ecosystems located in different life zones in the Region Huetar Norte from Costa Rica. High variation in taxa abundance between different management types within ecosystems was obtained. However, the low availability of replicates for proper statistical analyzes made the mean estimations numerically unprovable. The maturity indexes and the food web diagnosis did not show statistical differences between the studied zones, while, the metabolic footprints were positively correlated to life zones. The metabolic footprint decreased in the different life zones in correspondence with the increase of the average annual temperature reported for each one. The metabolic footprints associated with the decomposition of organic matter (fungivores, bacterivores, and enrichment) had the strongest correlations. The proposition is that the increase in metabolic footprints while the temperature decreases, reflects a change in the dynamics of chemical and biological decomposition of organic matter and in the energy flow in the food networks. This research supports finding in other studies, suggesting that the temperature is a key factor in the species distribution in edaphic ecosystems, and therefore it should be subject to further investigation.(AU)

Ecogeografía del género Sticta (Ascomycota liquenizados: Lobariaceae) en Colombia / Ecogeography of the genus Sticta (lichenized Ascomycota: Lobariaceae) in Colombia

Colombia is a megadiverse country, but with a substantial gap in the taxonomic and ecological knowledge of fungi and lichens. Thus, the objective of the present study was an ecogeographical analysis of the Sticta species in Colombia. The data included macrodistribution (with respect to mountain ranges and life zones) and microhabitat preferences (light, substrate) and were obtained from field work and herbarium collection labels (completed by comparison with modern geographic and vegetation maps), for 103 species of Sticta currently recognized in Colombia (plus seven additional biotypes with different photobionts or reproductive mode). Using non-metric multidimensional scaling (NMS), correlations between ecogeographical variables and species were established, and ecotypes were delimited. Colombian species of Sticta showed distinct distribution patterns relative to altitude, mountain ranges, life zones, as well as light exposure and substrate, forming several distinct groups. Cyanobacterial species tend to have wider distribution ranges than green algal species. We concluded that the orogeny of the Northern Andes substantially affected speciation of the genus Sticta and its ecogeographical differentiation.

Colombia es un país megadiverso, pero con una ausencia significativa en el conocimiento de la taxonomía y ecología de hongos y líquenes. Por lo tanto, el objetivo del presente estudio era un análisis ecogeográfico de las especies de Sticta de Colombia. Los datos incluyeron la macrodistribución (con respeto a las cordilleras y zonas de vida) y preferencias de microhabitat (luz, sustrato) y fueron obtenidos mediante trabajo de campo y en el herbario (complemetados con mapas modernos de geografía y vegetación), para 103 especies actualmente reconocidas en Colombia (más siete biotipos con diferentes fotobiontes o modo de reproducción). Se elaboró un análisis de ordenación usando la técnica de escalamiento multidimensional no métrico (NMS), para establecer correlaciones entre variables ecogeográficas y las especies y para definir ecotipos. Las especies de Sticta en Colombia presentan patrones de distribución relativos a la altitud, las zonas de vida y la ubicación en las cordilleras, tanto como luz y sustrato, formando varios grupos distintos. Las especies con ciano-bionte tienen un rango de distribución más amplio que las especies con fotobionte verde. Concluimos que la orogenia de los Andes afectó significativamente la especiación del género Sticta y su diferenciación ecogeográfica.