Chiappelli, F. (2019). Translational Environmental Restoration (TER) for Climate Solutions. Solutions 10(2): 34–39. https://www.thesolutionsjournal.com/article/translational-environmental-restoration-(ter)-for-climate-solutions
Perspectives Translational Environmental Restoration (TER) for Climate Solutions by Francesco Chiappelli
From Climate Change to Climate Crisis It behooves us to entertain the validity of climate solutions from the perspective of systems thinking.1 As we have outlined in our recent discussion of the increased risk of HIV, AIDS, IRIS and Neuro-AIDS consequential to climate change,9 our survival, and the survival of all prokaryotes and eukaryotes, including mammals, and ultimately our species, depends upon their ability to adapt to changes in their microenvironmental milieu and to the challenges of their surrounding macroenvironment. Our microenvironment is our physiology: the context within which our organs, tissues, and the cells that compose our bodies survive, thrive, grow and divide. It is a biological system made up of complex and finely controlled pathways, regulatory feed-back loops and delicate biochemical check-andbalances, which together modify and modulate the expression of our genes to the ultimate end of improving our adaptability to the demands of the surroundings. These epigenetic alterations, which can be short-lived (i.e., one cell division), or sustained for several cell multiplication cycles, are concerted sub-cellular changes, intended to ensure our survival, although they may precipitate cell death either by necrosis or by the programmed process of apoptosis. Epigenetic changes are fundamental alterations in the organism’s molecular, biochemical, cellular and physiological balance, which we call homeostasis, in response to, and for the adapting to disturbances in the complex systems of biologic processes and responses that constitute its 34 | Solutions | April 2019 | www.thesolutionsjournal.org
microenvironment. The microenvironment system, which preserves us into health and prevents us from falling into ‘dis-ease’, is constantly challenged by alterations in the macroenvironment system multidimensional set of factors (e.g., temperature, humidity, altitude) that surrounds us.2 What biologists and physiologists call the macroenvironment, earth scientists call the climate: that is, the set of data and evidence that defines and characterizes global patterns of weather beyond decades, into centuries and millennia. Climate patterns describe cyclical variation in several meteorological variables, including temperature, humidity, atmospheric pressure, sea currents, polar ice sheet, eternal snow packs, wind and precipitation, atmospheric particle count (O2 content, CO2 concentrations, methane and other toxic gases and particulates) in various regions of the globe over long periods of time. By contrast, the weather describes the short-term conditions of these variables in any given region. As noted,9 the climate of any specific region of the globe arises from that region’s climate system, which is dictated by properties of the air, the earth and the waters. Scientists describe the climate as composed of five distinct components: 1. atmosphere (i.e., layer of O2, CO2 and other breathable gases), 2. hydrosphere (i.e., the surrounding mass of water – sea or fresh, drinkable or toxic), 3. cryosphere (i.e., the proportion of surrounding water that is in ice form),
4. lithosphere (i.e., the solid mass in that region: ground, plains, mountains, sand, rocks), and 5. biosphere (i.e., the extent to which that region can sustain life). Significant variations in the balance of these parameters have been recorded across the globe (e.g., increased global temperature: global warming) in the last decades. These alterations bring about important changes in the earth climate, which are above and beyond expectations due to causes such as processes internal to the earth (e.g., volcanic activity), or external forces (e.g., variations in sunlight intensity). The Australian National Climate Change Adaptation Research Facility, the United Nations Framework Convention on Climate Change (UNFCCC) and other national and international organizations describe as climate variability those variations proved beyond doubt to be of non-human origins. The changes in climate registered in the last 100–75 years are attributed primarily to wanton human activities,9 such as massive and irresponsible deforestation, sea pollution, increased air pollutant emission, among many others. Human activities detrimental to the global climate are so intense and have been so persistent over the past centuries that, even if their effect have been curbed slightly in the past decade, the change in climate they have caused has become an emergency climate crisis. Heat stress, breathable air and water—fresh and sea—acidity increase due to raised CO2 levels, clean water deprivation and drought, release of toxic gases are among the