Carlos Eduardo Alonso-Malaver scite author profile

Following the global and regional trend, Colombia liberalized the air transport industry in the early 1990s. With this, an uninterrupted (ongoing to date) development of a set of public policies for this sector started, accompanied by various reforms at the institutional level. These transformations took place following the notion that the Colombian State considers air transport as an essential public service that contributes to the national economic and regional development. Within this package of public air transport policies, airport policies have an essential role, through which a large number of airports in the country were privatized (19 to date), which are distributed, almost homogeneously, throughout the Colombian geography. These privately governed airports are located in large, medium, and small cities, and in regions considered remote and isolated. Therefore, this article analyzes the impact of public air transport policies, with a special emphasis on airport policies, on the country’s territorial connectivity and the socioeconomic development of its regions. To analyze the socioeconomic indicators, the methodology of difference‐in‐differences was used, which is a quasi‐experimental econometric and impact evaluation method.

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Soil macrofauna in areas with different ages after Pinus patula clearcutting

Tulande-M.

Barrera-Cataño

Alonso-Malaver

et al. 2018

Univ. Sci.

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In Andean high montane areas, the establishment of exotic tree forests changes the soil dynamics and its biodiversity. Soil macrofauna act as indicators of ecosystem successional processes, and may have an important role in ecological restoration processes after clear cutting exotic tree plantations. The aim of the present study was to understand how soil macrofaunal assemblies change in areas with different ages post clear cutting of Pinus patula, and to identify the soil physico-chemical variables that better explain these variations. The macrofauna in a high montane forest was evaluated along with that of three areas with different ages post clearcutting: 0, 2.5, and 5 years after clearcutting (Yac). The effect of soil physico chemical variables on macrofauna abundance was also evaluated. Macrofauna composition changed after clearcutting. Macrofauna abundance, richness, and diversity were lower in the 0 Yac area than in the other areas. Moreover, the macrofuna similarity to the reference forest did not increase with the years after clearcutting. This is due to the changes in soil characteristics, triggered by clearcutting. Slope, temperature, bulk density, real density, loam, pH, P, Na and K were the soil variales with a positive effect on the macrofauna abundance. These physico-chemical variables should be considered when designing restoration plans for Andean forest ecosystems. Moreover, Diplopoda, Coleoptera and Chilopoda might be useful to monitor and evaluate restoration processes after Pinus spp. clearcutting, because of their high abundance, diversity and relationship with environmental conditions.

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Dynamics in cortical activity revealed by resting-state MEG rhythms

Mendoza-Ruiz

Alonso-Malaver

Valderrama

et al. 2020

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The brain is a biophysical system subject to information flows that may be thought of as a many-body architecture with a spatiotemporal dynamics described by its neuronal structures. The oscillatory nature of brain activity allows these structures (nodes) to be described as a set of coupled oscillators forming a network where the node dynamics and that of the network topology can be studied. Quantifying its dynamics at various scales is an issue that claims to be explored for several brain activities, e.g., activity at rest. The resting-state (RS) associates the underlying brain dynamics of healthy subjects that are not actively compromised with sensory or cognitive processes. Studying its dynamics is highly non-trivial but opens the door to understand the general principles of brain functioning, as well as to contrast a passive null condition vs the dynamics of pathologies or non-resting activities. Here, we hypothesize about how the spatiotemporal dynamics of cortical fluctuations could be for healthy subjects at RS. To do that, we retrieve the alphabet that reconstructs the dynamics (entropy-complexity) of magnetoencephalography (MEG) signals. We assemble the cortical connectivity to elicit the dynamics in the network topology. We depict an order relation between entropy and complexity for frequency bands that is ubiquitous for different temporal scales. We unveiled that the posterior cortex conglomerates nodes with both stronger dynamics and high clustering for α band. The existence of an order relation between dynamic properties suggests an emergent phenomenon characteristic of each band. Interestingly, we find the posterior cortex as a domain of dual character that plays a cardinal role in both the dynamics and structure regarding the activity at rest. To the best of our knowledge, this is the first study with MEG involving information theory and network science to better understand the dynamics and structure of brain activity at rest for different bands and scales.

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