The Contribution of Agriculture,Forestry and other Land Use activities to Global Warming, 1990–2012

We refine the information available through the IPCC AR5 with regard to recent trends in global GHG emissions from agriculture, forestry and other land uses (AFOLU), including global emission updates to 2012. Using all three available AFOLU datasets employed for analysis in the IPCC AR5, rather than just one as done in the IPCC AR5 WGIII Summary for Policy Makers, our analyses point to a down‐revision of global AFOLU shares of total anthropogenic emissions, while providing important additional information on subsectoral trends. Our findings confirm that the share of AFOLU emissions to the anthropogenic total declined over time. They indicate a decadal average of 28.7 ± 1.5% in the 1990s and 23.6 ± 2.1% in the 2000s and an annual value of 21.2 ± 1.5% in 2010. The IPCC AR5 had indicated a 24% share in 2010. In contrast to previous decades, when emissions from land use (land use, land use change and forestry, including deforestation) were significantly larger than those from agriculture (crop and livestock production), in 2010 agriculture was the larger component, contributing 11.2 ± 0.4% of total GHG emissions, compared to 10.0 ± 1.2% of the land use sector. Deforestation was responsible for only 8% of total anthropogenic emissions in 2010, compared to 12% in the 1990s. Since 2010, the last year assessed by the IPCC AR5, new FAO estimates indicate that land use emissions have remained stable, at about 4.8 Gt CO₂ eq yr^?1 in 2012. Emissions minus removals have also remained stable, at 3.2 Gt CO₂ eq yr^?1 in 2012. By contrast, agriculture emissions have continued to grow, at roughly 1% annually, and remained larger than the land use sector, reaching 5.4 Gt CO₂ eq yr^?1 in 2012. These results are useful to further inform the current climate policy debate on land use, suggesting that more efforts and resources should be directed to further explore options for mitigation in agriculture, much in line with the large efforts devoted to REDD+ in the past decade.     

Biologically threatened dolphins and whales

Among the several threats to which free-ranging cetaceans are exposed, a number of biological noxae are believed to represent a serious hazard to their health and conservation on a global scale, with special emphasis on the Mediterranean Sea. These pathogens include viral agents such as Morbillivirus, which during the last 25 years have caused dramatic epidemics and die-offs among several aquatic mammal species and populations worldwide, as well as Herpesvirus, protozoan agents such as Toxoplasma gondii and bacterial pathogens such as Brucella spp.     

The urban environment and mental disorders: Epigenetic links

For the first time in human history, more than half of the world''s population lives in urban areas and this is projected to increase to two-thirds by 2030. This increased urbanity of the world''s population has substantial public health implications. Nearly a century of research has shown higher risk of mental disorder among persons living in urban versus rural areas. Epidemiologic research has documented that associations between particular features of the urban environment, such as concentrated disadvantage, residential segregation and social norms, contribute to the risk of mental illness. We propose that changes in DNA methylation may be one potential mechanism through which features of the urban environment contribute to psychopathology. Recent advances in animal models and human correlation studies suggest DNA methylation as a promising mechanism that can explain how the environment “gets under the skin.” Aberrant DNA methylation signatures characterize mental disorders in community settings. Emerging evidence of associations between exposure to features of the environment and methylation patterns may lead toward the identification of mechanisms that explain the link between urban environments and mental disorders. Importantly, evidence that epigenetic changes are reversible offers new opportunities for ameliorating the impact of adverse urban environments on human health.Key words: urban environment, mental disorders, DNA methylation, epigenetics, posttraumatic stress disorder, depressionThe 20th century has been characterized by the world-wide movement of populations from rural to urban areas. For the first time in human history, more than half of the world''s population lives in urban areas and this is projected to increase to two-thirds by 2030. The movement of populations to urban environments is probably the most important demographic shift in the past century. In particular, the increased urbanity of the world''s population has substantial public health implications. A body of research has long shown that there are different burdens of disease and disability in urban vs. non-urban areas and more recent work has linked specific features of the urban environment to particular health indicators (for reviews of the literature about urban health see refs. ¹ and ²).Some of the more promising work in this area concerns research that has shown relations between urbanity and mental disorders. There is more than a century of work that has shown higher risk of most mental disorders among persons living in urban versus rural areas.^3–8 Early research proposed several factors that may explain this association including selective migration and social disorganization.³ For example, it has been proposed that persons within disadvantaged areas may have a more difficult time building and sustaining supportive social relationships, therefore increasing susceptibility to mental illness. Subsequent work has shown associations between particular features of the urban environment and risk of mental illness. Living in poorer urban neighborhoods is associated with greater risk of new episodes of depression compared to living in richer neighborhoods, even when accounting for individual income or exposure to stressful or adverse circumstances.^6,9,10 Living in neighborhoods characterized by residential racial segregation is associated with a greater risk of depression and anxiety, compared to living in less segregated neighborhoods.¹¹ Other evidence suggests that neighborhood collective efficacy and norms are associated with the risk of substance use disorders12 and suicide attempts,¹³ again when taking into account individual experiences.Coincident with the growing number of studies that have demonstrated links between features of the urban environment and mental health, there has been an increase in work that has sought to understand the mechanisms underlying these epidemiologic observations. In particular, there is an emerging interest in identifying biologic explanations that may clarify the link between features of the urban environment and individual mental health. Existing research has documented a role for changes in immune function,¹⁴ gene-environment interactions¹⁵ and psychological mechanisms,¹⁶ among others, that may explain the links between the urban environment and mental health. This paper adds to this growing field and proposes that changes in DNA methylation may be one potential mechanism through which features of the urban environment contribute to psychopathology.     

Cytokines and lymphocyte proliferation in patients with different clinical forms of chromoblastomycosis

Chromoblastomycosis is a chronic, often debilitating, suppurative, granulomatus mycosis of the skin and subcutaneous tissues beginning after inoculation trauma. It occurs world-wide, but is more frequently observed in tropical countries such as Brazil. The disease is usually insidious, and the lesions increase slowly but progressively, not responding to the usual treatments and quite often reappearing. The host defense mechanism in chromoblastomycosis has not been extensively investigated. Some studies have focused on fungus-host interaction, showing a predominantly cellular immune response, with the activation of macrophages involved in fungus phagocytosis. Although phagocytosis did occur, death of fungal cells was rarely observed. The ability of Fonsecaea pedrosoi to produce secreted or cell wall-associated melanin-like components, protects against destruction by host immune cells in vitro. Until now, the T cell immune response in chromoblastomycosis is undefined. In the present work, it was shown that, in patients with the severe form of the disease, predominant production of IL-10 cytokine, low levels of IFN-gamma and inefficient T cell proliferation were induced. In contrast, in patients with a mild form of the disease, predominant production of IFN-gamma cytokine, low levels of IL-10 and efficient T cell proliferation were observed.     

Humoral immune response against soluble and fractionate antigens in experimental sporotrichosis

Sporotrichosis is a chronic granulomatous mycosis caused by the dimorphic fungus Sporothrix schenckii, which is widely distributed in nature, and presents a saprophytic mycelial form on plant debris and soil. The immunological mechanisms involved in the prevention and control of sporotrichosis are not yet fully understood. In this study, mice were studied after infection with Sporothrix schenckii. In the first week after infection, fungal loading increased and thence decreased drastically 14 days after infection. Analysis by immunoblotting showed that the sera of all mice tested had antibodies reacting only with a 70 kDa antigen, with predominance of IgG1 and IgG3. Taken together, our results show that antigens from S. schenckii induced a specific humoral response in infected mice.     

A critical reassessment of penetratin translocation across lipid membranes

Penetratin is a short, basic cell-penetrating peptide able to induce cellular uptake of a vast variety of large, hydrophilic cargos. We have reassessed the highly controversial issue of direct permeation of the strongly cationic peptide across negatively charged lipid membranes. Confocal laser scanning microscopy on rhodamine-labeled giant vesicles incubated with carboxyfluorescein-labeled penetratin yielded no evidence of transbilayer movement, in contradiction to previously reported results. Confocal fluorescence spectroscopy on black lipid membranes confirmed this finding, which was also not affected by application of a transmembrane electric potential difference. A novel dialysis assay based on tryptophan absorbance and fluorescence spectroscopy demonstrated that the permeability of small and large unilamellar vesicles to penetratin is <10(-13) m/s. Taken together, the results show that penetratin is not capable of overcoming model membrane systems irrespective of the bilayer curvature or the presence of a transmembrane voltage. Thus, direct translocation across the hydrophobic core of the plasma membrane cannot account for the efficient uptake of penetratin into live cells, which is in accord with recent in vitro studies underlining the importance of endocytosis in the internalization process of cationic cell-penetrating peptides.     

Respiratory heat loss of Holstein cows in a tropical environment

In order to develop statistical models to predict respiratory heat loss in dairy cattle using simple physiological and environmental measurements, 15 Holstein cows were observed under field conditions in a tropical environment, in which the air temperature reached up to 40°C. The measurements of latent and sensible heat loss from the respiratory tract of the animals were made by using a respiratory mask. The results showed that under air temperatures between 10 and 35°C sensible heat loss by convection decreased from 8.24 to 1.09 W m^–2, while the latent heat loss by evaporation increased from 1.03 to 56.51 W m^–2. The evaporation increased together with the air temperature in almost a linear fashion until 20°C, but it became increasingly high as the air temperature rose above 25°C. Convection was a mechanism of minor importance for respiratory heat transfer. In contrast, respiratory evaporation was an effective means of thermoregulation for Holsteins in a hot environment. Mathematical models were developed to predict both the sensible and latent heat loss from the respiratory tract in Holstein cows under field conditions, based on measurements of the ambient temperature, and other models were developed to predict respiration rate, tidal volume, mass flow rate and expired air temperature as functions of the ambient temperature and other variables.This paper forms part of A. S. Campos Maias doctoral thesis.