Litcius/Paper detail

Saving the planet with appropriate biotechnology: 1. Diagnosing the problems

David Moore, Matthias Heilweck, Peter Petros

2021Mexican Journal of Biotechnology17 citationsDOIOpen Access PDF

Abstract

We give a plain language guide to the Earth’s carbon cycle by briefly summarising the observations and origins of increased levels of greenhouse gases, mainly CO2 but including CH4 and N2O, in our atmosphere. The only tenable explanation for our atmosphere’s present state is that it is the consequence of mankind’s excessive use of fossil fuels since the Industrial Revolution onwards. We deal with the arguments that deny the truth of this, then illustrate the Earth’s global carbon cycle, which was almost exactly in equilibrium for several thousand years while humans were evolving, before industrial humans intervened. We describe how the excess greenhouse gas emissions are projected to change the global climate over this century and beyond and discuss ‘dangerous anthropogenic interference’ (DAI), ‘reasons for concern’ (RFCs) and climate tipping points. Finally, we give a short account of the various improved management, engineering and natural climate solutions advocated to increase carbon storage and/or avoid greenhouse gas emissions across global forests, wetlands, grasslands, agricultural lands, and industry. This review concludes with our basic message, which is that cultivation of aquatic calcifiers (coccolithophore algae, corals, crustacea and molluscs) offers the only effective and permanent carbon sequestration strategy.

Topics & Concepts

Greenhouse gasGreenhouse gas removalNatural resource economicsGlobal warmingEnvironmental scienceCarbon cycleCarbon sequestrationFossil fuelAtmosphere (unit)Climate changeAgricultureGreenhouse effectIndustrial RevolutionWetlandEcologyEarth scienceCarbon dioxideMeteorologyGeographyEconomicsEcosystemBiologyGeologyPolitical scienceLawAtmospheric and Environmental Gas DynamicsClimate Change and GeoengineeringPeatlands and Wetlands Ecology