Cytotaxonomic study of the Chilean endemic complex Alstroemeria magnifica Herb. (Alstroemeriaceae).

Alstroemeria L. (Alstroemeriaceae) represents one of the most diverse genera of vascular plants in Chile. It contains approximately 54 taxa, 40 of which are endemic. The "complex" Alstroemeria magnifica is endemic to Chile, and it comprises four varieties: A. magnifica var. magenta, A. magnifica var. magnifica, A. magnifica var. sierrae, and A. magnifica var. tofoensis. It is distributed from Coquimbo to the Valparaíso Region. We analyzed karyotypes of 10 populations along its natural distribution. All the populations presented an asymmetric karyotype, with 2n = 16 chromosomes but with three different karyotypic formulae. Alstroemeria magnifica var. magnifica and A. magnifica var. sierrae presented the same karyotypic fomula, and A. magnifica var. magenta, and A. magnifica var. tofoensis each had a different formula. The scatter plot among CVCL vs. MCA shows different groupings between populations of the four varieties. Based on the results, it is possible to consider raising Alstroemeria magnifica var. magenta to species level (A. magenta) and A. magnifica var. tofoensis to subspecies level (A. magnifica subsp. tofoensis); A. magnifica var. magnifica and A. magnifica var. sierrae should each remain as varieties. Nevertheless, these taxonomic changes should be considered tentative, as additional sources of evidence become available.

Evolutionary lag times and recent origin of the biota of an ancient desert (Atacama-Sechura).

The assembly of regional biotas and organismal responses to anthropogenic climate change both depend on the capacity of organisms to adapt to novel ecological conditions. Here we demonstrate the concept of evolutionary lag time, the time between when a climatic regime or habitat develops in a region and when it is colonized by a given clade. We analyzed the time of colonization of four clades (three plant genera and one lizard genus) into the Atacama-Sechura Desert of South America, one of Earth's driest and oldest deserts. We reconstructed time-calibrated phylogenies for each clade and analyzed the timing of shifts in climatic distributions and biogeography and compared these estimates to independent geological estimates of the time of origin of these deserts. Chaetanthera and Malesherbia (plants) and Liolaemus (animal) invaded arid regions of the Atacama-Sechura Desert in the last 10 million years, some 20 million years after the initial onset of aridity in the region. There are also major lag times between when these clades colonized the region and when they invaded arid habitats within the region (typically 4-14 million years). Similarly, hyperarid climates developed ∼8 million years ago, but the most diverse plant clade in these habitats (Nolana) only colonized them ∼2 million years ago. Similar evolutionary lag times may occur in other organisms and habitats, but these results are important in suggesting that many lineages may require very long time scales to adapt to modern desertification and climatic change.

Climatic Niche Dynamics of the Astereae Lineage and Haplopappus Species Distribution following Amphitropical Long-Distance Dispersal.

The tribe Astereae (Asteraceae) displays an American Amphitropical Disjunction. To understand the eco-evolutionary dynamics associated with a long-distance dispersal event and subsequent colonization of extratropical South America, we compared the climatic and geographic distributions of South American species with their closest North American relatives, focusing on the diverse South American Astereae genus, Haplopappus. Phylogenetic analysis revealed that two South American genera are closely related to seven North American genera. The climatic niche overlap (D = 0.5) between South and North America exhibits high stability (0.89), low expansion (0.12), and very low unfilling (0.04). The distribution of the North American species predicted the climatic and geographic space occupied by the South American species. In central Chile, Haplopappus showed a non-random latitudinal gradient in species richness, with Mediterranean climate variables mainly explaining the variation. Altitudinal patterns indicated peak richness at 600 m, declining at lower and higher elevations. These findings support climatic niche conservatism in shaping Haplopappus species distribution and diversity. Two major endemism zones were identified in central Chile and the southern region, with a transitional zone between Mediterranean and Temperate macro-bioclimates. Our results indicate strong niche conservatism following long-distance dispersal and slight niche expansion due to unique climatic variables in each hemisphere.

An Internet-based platform for the estimation of outcrossing potential between cultivated and Chilean vascular plants.

A national-scale study of outcrossing potential within Chilean vascular flora was conducted using an upgraded algorithm, which adds parameters such as pollinator agents, climate, and geographic conditions. Datasets were organized and linked in a Web platform (www.flujogenico.cl), in which the development of a total outcrossing potential (TOP) predictor was formulated. The TOP predictor is the engine in the Web platform, which models the effect of a type of agricultural practice on others (coexistence calculation mode) and on the environment (biodiversity calculation mode). The scale for TOP results uses quintiles in order to define outcrossing potential between species as "very low," "low," "medium," "high," or "very high." In a coexistence analysis considering 256 species (207 genera), the 10 highest TOP values were for genera Citrus, Prunus, Trifolium, Brassica, Allium, Eucalyptus, Cucurbita, Solanum, Lollium, and Lotus. The highest TOP for species in this analysis fell at "high" potential, 4.9% of the determined values. In biodiversity mode, seven out of 256 cultivated species (2.7%) were native, and 249 (97.3%) corresponded to introduced species. The highest TOP was obtained in the genera Senecio, Calceolaria, Viola, Solanum, Poa, Alstroemeria, Valeriana, Vicia, Atriplex, and Campanula, showing "high" potential in 4.9% of the values. On the other hand, 137 genetically modified species, including the commercial and pre-commercial developments, were included and represented 100 genera. Among these, 22 genera had relatives (i.e., members of the same genus) in the native/introduced group. The genera with the highest number of native/introduced relatives ranged from one (Ipomea, Limonium, Carica, Potentilla, Lotus, Castanea, and Daucus) to 66 species (Solanum). The highest TOP was obtained when the same species were coincident in both groups, such as for Carica chilensis, Prosopis tamarugo, and Solanum tuberosum. Results are discussed from the perspective of assessing the possible impact of cultivated species on Chilean flora biodiversity. The TOP predictor (http://epc.agroinformatica.cl/) is useful in the context of environmental risk assessment.

Efecto del manejo farmacológico del sistema nervioso autónomo en la pancreatitis aguda inducida por el veneno de escorpión Tityus zulianus en un modelo ex vivo / Effect of the pharmacological management of the autonomic nervous system in the acute pancreatitis induced by the venom of Tityus zulianus scorpion in an ex vivo model

La pancreatitis es una de las consecuencias principales del envenenamiento escorpiónico producido por el género Tityus. El manejo farmacológico mediante el uso de agonistas y antagonistas α adrenérgicos en modelos experimentales in vivo e in vitro, permiten establecer una aproximación del papel del Sistema Nervioso Simpático (SNS) en el desarrollo de la pancreatitis. Objetivo: determinar el papel del SNS en el desarrollo de la pancreatitis aguda inducida por el veneno de escorpión Tityus zulianus (TzV), por medio del uso de simpaticolíticos como la clonidina y el prazosin. Métodos: La Extravasación de Proteínas Plasmáticas (EPP) en el páncreas se evaluó mediante el método de Azul de Evans (AE), modificado de Saria y Lundberg (1983) a 620 nm; n=3 ratones NIH en cada grupo experimental. Las comparaciones se hicieron por ANOVA de una vía y las pruebas post HOC por Tukey-Kramer. Resultados: Ambos fármacos (1mg/Kg), disminuyeron significativamente p< 0,01 (**) la EPP en el páncreas inducida por el TzV, en comparación con los animales inoculados solo con TzV. No hubo diferencias significativas entre los animales del grupo control y los grupos tratados con los fármacos más el TzV. Conclusiones: El efecto pancreatotóxico del TzV en ratones podría tener un componente autonómico dado que drogas simpaticolíticas al disminuir la actividad noradrenérgica reducen la magnitud del edema. Esto sugiere que ambos fármacos pueden usarse como estrategia terapéutica en estos casos(AU)

Pancreatitis is one of the main consequences of scorpionic poisoning produced by the genus Tityus. The pharmacological management through the use of agonists and α adrenergic antagonists in experimental models in vivo and in vitro, allow us to establish an approximation of the role of the Sympathetic Nervous System (SNS) in the development of pancreatitis. Objective: to determine the role of SNS in the development of acute pancreatitis induced by the scorpion venom Tityus zulianus (TzV), through the use of sympatholytics such as clonidine and prazosin. Methods: Plasma Protein Extravasation (PPE) in the pancreas was evaluated by the method of Evans Blue (EA), modified by Saria and Lundberg (1983) at 620 nm; n = 3 NIH mice in each experimental group. Comparisons were made by one-way ANOVA and post-HOC tests by Tukey-Kramer. Results: Both drugs (1mg / Kg) significantly decreased p <0.01 (**) the EPP in the pancreas induced by TzV, compared to animals inoculated only with TzV. There were no significant differences between the animals in the control group and the groups treated with drugs plus TzV. Conclusions: The pancreatotoxic effect of TzV in mice could have an autonomic component since sympatholytic drugs by decreasing noradrenergic activity reduce the magnitude of edema. This suggests that both drugs can be used as a therapeutic strategy in these cases(AU)

La activación muscarínica del músculo liso de las vías aéreas / The muscarinic activation of smooth muscle of airway

La activación de receptores muscarínicos del músculo de las vías aéreas provoca la generación de varios segundos mensajeros (AMPc e GMPc e IP3). La activación del receptor muscarínico M3 producida por el carbacol induce a incrementos significativos en los segundos mensajes antes mencionados. Después de la adición de carbacol, una cinética diferente fue encontrada para estos segundos mensajeros. El IP3 mostró un primer pico (10 seg), el cual precede el inicio de la contracción muscular lisa. Además, un segundo pico de este segundo mensaje de inositol fue detectado a los 60 segundos. Con respecto a los nucleótidos ciclicos, el AMPc mostró un solo pico a los 20 segundos y el GMPc mostró la existencia de dos picos. Así, este último nucleótico mostró un primer pico a los 20 segundos, el cual coincide con el pico de AMPc y un segundo pico a los 60 segundos, después que la contracción muscular lisa se estabilizó. El último pico parece ser sensible a los atrapadores de grupos NO como es el azul de metileno, sugiriendo a la guanililciclasa soluble como la enzima responsable de este segundo pico. Adicionalmente; el KCL es capaz de inducir la contracción del músculo liso que parece ser diferente en varios aspectos a la activación muscarínica del músculo liso de las vías aéreas