Abstract
Biostimulant manufacturers have developed innovative products targeting specific agronomic needs, hence attracting the attention of the scientific community, extension specialists, and industry stakeholders including policymakers and crop producers. Microalgae acquire a broad economic value in the production of nutrient dense food and supplementary diet produce, in addition to their high importance in biofuel production and wastewater bioremediation. Recently, microalgae, which comprise blue-green algae (eukaryotic and prokaryotic cyanobacteria), have gained prominence as biostimulant products due to their potential to increase germination, seedling growth, plant growth, productivity, nutrient use efficiency, as well as tolerance to a wide range of abiotic stresses (salinity, drought, sub- and supra-optimal temperatures, and heavy metals contamination). Although it is well established that green and blue-green algae produce several bioactive and signaling molecules active on horticultural and agronomic crops, their targeted applications in plant science are still in their infancy stage. The aim of this editorial paper is to provide an updated overview of this far-reaching new category of plant biostimulants and the possible physiological and molecular mechanisms behind the biostimulatory action based on the recent scientific literature. Finally, this editorial paper identifies the main bottlenecks that hamper market introduction and farmers from reaping the full benefit of microalgae-based biostimulants; it also pinpoints the future relevant areas of microalgae research to enhance the biostimulant action of microalgal extracts in agriculture.
Highlights
The agriculture sector is recently facing new and concurrent challenges to boost productivity with the aim of feeding an increasing global population, concomitantly reducing the environmental impact and preserving natural resources for future generations, in contempt of maintaining low production costs to bear competition in a globalized economy [1]
Algal extracts are receiving increasing interest among the scientific community, crop producers, and agrochemical industries, where different formulations are available on the market
Despite the strong interest in developing new microalgae-based biostimulants, few well-characterized products with reliable performance are on the market
Summary
The agriculture sector is recently facing new and concurrent challenges to boost productivity with the aim of feeding an increasing global population, concomitantly reducing the environmental impact and preserving natural resources for future generations, in contempt of maintaining low production costs to bear competition in a globalized economy [1] To this end, modern agriculture needs to review its practices by integrating novel approaches to produce food in a sustainable way [2]. Despite the high interest in developing and testing new seaweed extracts as biostimulants, few well-characterized products with a reliable performance are on the market This is mainly due to the high raw material variability (due to tissue age, seasons, and time of harvesting; [16,17]), which limits the chemical composition control of the generated algal extract-based biostimulants. The exploitation of a microalgae-based biostimulant as a sustainable means to improve crop production under optimal and sub-optimal conditions is crucial in order to recover the environmental sustainability of the agriculture sector
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