Role of local communities in the social network of the protected area management

Biodiversity conservation traditionally necessitates setting aside land, which frequently impacts local communities. Although progress has been made on how to optimize this process, conflict frequently emerges when conservation and community goals are at odds. Improving communication and community inclusiveness in decision-making processes is strongly recommended to achieve livelihood goals and conservation outcomes. We used social network analysis to understand how local communities are embedded within the structure and dynamics of stakeholder interactions in Quirimbas National Park (Mozambique). We detected a network of limited cooperation that lacks bidirectional communication, displaying low average knowledge transfer but high bonding across stakeholder groups with similar perceptions. Local communities only interact with the district government and they have a passive voice in the system. A more inclusive network structure is needed so that conservation and community livelihood goals can be achieved.info:eu-repo/semantics/publishedVersio

Hydrogels in acellular and cellular strategies for intervertebral disc regeneration

Article first published online: 9 nov. 2011Low back pain is an extremely common illness syndrome causing patient’s suffering and disability which demands for urgent solutions in order to improve life quality of the patients. Treatment options aimed to regenerate the intervertebral disc (IVD) are still under development. The huge cellular complexity of IVD, and consequently its fine regulatory system, makes it a challenge to the scientific community. Biomaterials-based therapies are the most interesting solutions nowadays, wherein tissue engineering and regenerative medicine (TE&RM) strategies are included. By using such strategies, i.e., combining biomaterials, cells and biomolecules, the ultimate goal of reaching a complete integration between native and neo-tissue can be achieved. Hydrogels are promising materials to restore IVD, mainly nucleus pulposus (NP). Herein, an overview of the use of hydrogels in acellular and cellular strategies for intervertebral disc regeneration is presented. To better understand the IVD and its functioning, several topics will be focused, i.e., anatomy, pathophysiology, cellular and biomolecular performance, intrinsic healing processes and current therapies. In this review, the application of hydrogels as NP substitutes will be addressed, due to the similarity to NP mechanical properties and extracellular matrix. These hydrogels can be used in cellular strategies, when combined with cells from different sources,, or in acellular strategies, by performing the functionalization of the hydrogels with biomolecules. In addition, a brief summary of therapies based on simple injection envisaging primarily the biological repair will be tackled. At last, a special emphasis has been given to original works reporting the use of autologous cells and biomolecules (e.g.,Platelet-rich plasma) and envisioning the clinical application.Fundação para a Ciência e tecnologia (FCT) through POCTI and FEDER including Project Proteolight. European Union-funded Collaborative Project Disc Regeneratio

Gellan-gum based bilayered scaffolds for application in osteochondral tissue engineering

Publicado em "Journal ofTissue Engineering and Regenerative Medicine", vol. 7, supp. 1 (2013)Bilayered scaffold and cellular strategies are currently applied to solve the challenging problem of osteochondral defects. In this study, several formulations of Gellan gum were developed to fabricate different scaf- folds possessing a cartilage-like layer and a bone-like layer. The bone- like layers were obtained by low acyl Gellan gum (LAGG) at 2 wt% and different amounts of hydroxyapatite powders (HAp) (5,10,15 and 20wt%). The cartilage-like layers were obtained by preparing LAGG formulation at 2wt% and formulations of LAGG at 2wt% and high acyl Gellan gum (HAGG) at 0.75wt% at a ratio of 75:25(v%). The visco- elastic measurements were performed using a TRITEC8000B DMA to characterize the mechanical behaviour of the bilayered scaffolds. The effect of the incorporation of different amount of HAp within the bone- like layer on the mechanical properties of the scaffolds was also investi- gated. Degradation and water uptake studies were performed by soak- ing the scaffolds in a phosphate buffered saline solution (pH 7.4) up to 30 days. The bilayered scaffolds were investigated by stereo microscope to evaluate the interface between both layers. The cytotoxicity of the bilayered scaffolds was investigated in vitro using a L929 cell line. In vi- tro studies regarding adhesion, encapsulation and viability of human chondrocytes (cartilage-like layer) and human osteoblasts (bone-like layer) cultured in the bilayered scaffolds were also carried by perform- ing SEM analysis and Live/Dead assays

Brown bear feeding habits in a poor mast year where supplemental feeding occurs

The diet of free-ranging bears is an important dimension regarding their ecology, affecting their behavior, population structure, and relation with humans. In Croatia, there has been no recent study on the natural food habits of brown bears (Ursus arctos) or the influence of artificial feeding sites on their diet. During 2017, we collected 53 brown bear stomachs from bears in 2 regions of Croatia— Gorski Kotar and Lika—to assess their diet. Plants—Allium ursinum, the Poaceae family, Cornus mas, berries (i.e., Prunus avium, Rubus plicatus), beechnuts (Fagus spp.)—and various plant parts (i.e., dry leaves, buds, conifer needles, and twigs), as well as mushrooms, made up 80% of the percentage of the volume (%V) of all consumed items. Corn (Zea mays) from the feeding sites made up 37% of the bears’ diet (%V), whereas 20% (%V) was meat and 14% (%V) was pome fruits. Scavenged or preyed animal species, such as wild boar (Sus scrofa), horse (Equus caballus), domestic pig (S. scrofa domesticus), cattle (Bos taurus), roe deer (Capreolus capreolus), and small mammals comprised >66% of %FO (frequency of occurrence), but only 20% of %V. Our results showed that food resources (i.e., livestock such as horses, cattle, and pigs, and corn) found at supplemental feeding sites were more frequently chosen by bears than natural food in 2017, a year characterized by almost no beechnut crop. The results showed that subadult bears obtained most food from feeding sites. These 2 patterns suggested that bears may focus on artificial feeding sites to find food in years when natural food sources are depleted, although this should be tested using diet and food availability data collected from several years.info:eu-repo/semantics/publishedVersio

Regeneration of the intervertebral disc

Degeneration of intervertebral disc (IVD) seems to be one of the main causes associated to lower back pain (LBP), one of the most common painful conditions that lead to work absenteeism, medical visits, and hospitalization in actual society [1,2]. This complex fibro-cartilaginous structure is composed by two structures, an outer multilayer fiber structure (annulus fibrosus, AF) and a gel-like inner core (nucleus pulposus, NP), which are sandwiched in part between two cartilage endplates (CEP) [1]. Existing conservative and surgical treatments for LBP are directed to pain relief and do not adequately restore disc structure and mechanical function [2]. In the last years, several studies have been focusing on the development of tissue engineering (TE) approaches aiming to substitute/regenerate the AF or NP, or both by developing an artificial disc that could be implanted in the body thus replacing the damaged disc [3]. TE strategies aiming to regenerate NP tissue often rely on the use of natural hydrogels, due to the number of advantages that these highly hydrated networks can offer. Nevertheless, several of the hydrogel systems developed still present numerous problems, such as variability of production, and inappropriate mechanical and degradation behaviour. Recently, our group has proposed the use of gellan gum (GG) and its derivatives, namely the ionic- and photo-crosslinked methacrylated gellan gum (GG-MA) hydrogels, as potential injectable scaffolds for IVD regeneration [4,5]. Work has been conducted regarding the improvement of GG mechanical properties either by chemically modifying the polymer (allowing to better control in situ gelation and hydrogel stability) [4] or by reinforcing it with biocompatible and biodegradable GG microparticles (enabling the control of degradation rate and cell distribution) [5]. Another strategy currently under investigation relies on the development of a biphasic scaffold that mimics the total disc by using a reverse engineering approach

Analysis of energy security and sustainability in future low carbon scenarios for Brazil

This study estimated a series of indicators to assess the energy security of supply and global and local environmental impacts under different mitigation scenarios through 2050 in Brazil, designed with the integrated optimisation energy system model MESSAGE-BRAZIL. The assessment of interactions between environmental impacts and energy security dimensions was complemented through the application of life cycle assessment (LCA) methodology. Overall results imply energy security establishes more synergies than trade-offs in increasingly stringent mitigation scenarios, especially patent within the sustainability dimension, which increases energy security and provides additional benefits regarding climate change mitigation and air pollution emissions. It is still necessary to extend analysis to other energy sectors in addition to the power supply sector, to promote a better understanding of repercussions of energy scenario expansion in energy security.This work was funded by the Brazilian research funding agencies CNPq and CAPES, under the Science Without Borders Programme, and the Marie Curie International Research Staff Exchange Scheme Fellowship within the 7th European Union Framework Programme, under the project NETEP- European Brazilian Network on Energy Planning (PIRSES-GA-2013-612263). We also acknowledge funding from US EPA and US AID (under Interagency Agreements DW89923040 and DW89923951US), through the LAMP, and the European Union, through the CLIMACAP project (EuropeAid/131944/C/SER/Multi)

Toxin profile of two Gymnodinium catenatum strains from Iberian Coastal Waters

Gymnodinium catenatum has been the main species responsible for paralytic shellfish poisoning events along the Portuguese coast (Iberian Peninsula), causing bans on bivalve harvesting that result in huge economic losses. This work presents the characterization of two novel isolates of G. catenatum regarding their growth and toxin profiles. Laboratory growth experiments revealed that, although low growth rates were obtained during cultivation, the cell yields were high compared to those reported in the literature. Evaluation of the toxin profiles, by HPLC-FLD, essentially confirmed the typical composition of toxins of this regional population (Iberian Peninsula), namely, the absence or low representation of the toxins dcNEO, GTX1,4 and NEO and a higher ratio of the toxins C1,2, GTX6 and GTX5. However, the percentage of the identified toxins varied among the strains of this study (under the same isolation, growth, and analysis conditions), and also differed from that of other strains described in the literature. Interestingly, we found a comparatively high abundance of dcSTX in both strains, relative to the other toxins, and an unquantifiable amount of C3,4 toxins. In addition to the geographic relationship between toxin profiles, chemical conversions among toxins may explain some differences encountered in the toxin profiles of G. catenatum strains.info:eu-repo/semantics/publishedVersio