Abstract
SummaryMicrobial technologies have provided solutions to key challenges in our daily lives for over a century. In the debate about the ongoing climate change and the need for planetary sustainability, microbial ecology and microbial technologies are rarely considered. Nonetheless, they can bring forward vital solutions to decrease and even prevent long‐term effects of climate change. The key to the success of microbial technologies is an effective, target‐oriented microbiome management. Here, we highlight how microbial technologies can play a key role in both natural, i.e. soils and aquatic ecosystems, and semi‐natural or even entirely human‐made, engineered ecosystems, e.g. (waste) water treatment and bodily systems. First, we set forward fundamental guidelines for effective soil microbial resource management, especially with respect to nutrient loss and greenhouse gas abatement. Next, we focus on closing the water circle, integrating resource recovery. We also address the essential interaction of the human and animal host with their respective microbiomes. Finally, we set forward some key future potentials, such as microbial protein and the need to overcome microphobia for microbial products and services. Overall, we conclude that by relying on the wisdom of the past, we can tackle the challenges of our current era through microbial technologies.
Highlights
There is an ongoing debate on the concept and urgency of planetary sustainability, which, amongst others, resulted in the identification of the so-called planetary boundaries (Steffen et al, 2015), a conceptual approach that identifies and quantifies human impact on our natural ecosystems
The discussion about the actions that are to be taken for planetary sustainability, rarely deal with issues related to microbiology, microbial ecology and microbial technology
Microorganisms play a key role in the Earth’s biogeochemical cycles (Madsen, 2011; Rousk and Bengtson, 2014) and, directly or indirectly, impact the unprecedented climate change that we have to face in the coming decades
Summary
There is an ongoing debate on the concept and urgency of planetary sustainability, which, amongst others, resulted in the identification of the so-called planetary boundaries (Steffen et al, 2015), a conceptual approach that identifies and quantifies human impact on our natural ecosystems. Direct and full conversion of wastewater into drinking water, anaerobic digestion, microbial protein production and the use of probiotics are strategies that make the most of the versatility and inherent resource efficiency of microorganisms.
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