Abstract
Climate change has gained importance due to its severe consequences for many aspects of life. Increasing temperature, drought and greenhouse gases affect directly or indirectly the productivity of agricultural and natural ecosystems as well as human health. The nutrient supply capacity of the soil is diminishing, while food requirements for the growing population are increasing. The ongoing application of agrochemicals results in adverse effects on ecosystem functioning and food chain. Now, more than ever, there is a need to mitigate the effects of agricultural activities on climate change using environmentally friendly techniques. The role of plant beneficial microorganisms on this global challenge is increasingly being explored, and there is strong evidence that could be important. The use of functional microbial guilds forms an alternative or even a supplementary approach to common agricultural practices, due to their ability to act as biofertilizers and promote plant growth. Application of microbial inocula has a significantly lower impact on the environment compared to chemical inputs, while the agricultural sector will financially benefit, and consumers will have access to quality products. Microbial inoculants could play an important role in agricultural stress management and ameliorate the negative impacts of climate change. This short review highlights the role of microbes in benefiting agricultural practices against climate-changing conditions. In particular, the main microbial plant growth-promoting functional traits that are related to climate change are presented and discussed. The importance of microbial inoculants’ multifunctionality is debated, while future needs and challenges are also highlighted.
Highlights
The Eastern Mediterranean and Middle East (EMME) has been classified as a climate “global hot-spot”, and concerted actions are urgently needed to face climate change challenges
The Cyprus Government’s Initiative for Coordinating Climate Change Actions in the EMME region aims at the development of a Regional Action Plan to address the specific needs and challenges that countries are facing in the EMME region, to address and ameliorate the impact of climate change and to advance mitigation actions according to the Paris Agreement
It is evident that the isolation of bacterial consortia, harboring such functional microorganisms, will improve our efforts to deal with the negative effects of climate change
Summary
The Eastern Mediterranean and Middle East (EMME) has been classified as a climate “global hot-spot”, and concerted actions are urgently needed to face climate change challenges. Historical data showed that in the Mediterranean region, there was a substantial decrease in precipitation during winter [3] and projections indicate that this will further decrease [2] These main climatic components are expected to significantly affect the productivity of agricultural ecosystems and, subsequently, food security. It has been well established that plants acquire defense/tolerance mechanisms against biotic (i.e., pathogens and pests) and abiotic (i.e., drought and nutrient limitation) stresses through their ability to establish symbiotic relationships with microbes [20,21] The objective of this short review is to discuss the role of microbes in benefiting agricultural practices against climate-changing conditions. The main microbial plant growth-promoting functional traits that are related to climate change like drought and reduced soil fertility are presented and discussed. The importance of microbial inoculants’ multifunctionality will be debated while future needs and challenges are highlighted
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call