Plant biostimulants: a review on the processing of macroalgae and use of extracts for crop management to reduce abiotic and biotic stresses

A biostimulant is an organic material that, when applied in small quantities, enhances plant growth and development such that the response cannot be attributed to the application of traditional plant nutrients. This review is aimed at highlighting developments in the processing of macroalgae for agr...

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Bibliographic Details
Published in:Journal of applied phycology 2014-02, Vol.26 (1), p.465-490
Main Authors: Sharma, H. S. Shekhar, Fleming, Colin, Selby, Chris, Rao, J. R, Martin, Trevor
Format: Article
Language:English
Subjects:
active ingredients
Algae
bacteria
Biomedical and Life Sciences
Crop management
Crop production
Crop yield
crops
Drought
Ecology
European Union
foliar application
Freezing
Freshwater & Marine Ecology
fruit yield
fungi
growth and development
Growth regulators
Hydroponics
industry
issues and policy
Life Sciences
macroalgae
nutrients
photosynthesis
Plant growth
plant growth substances
Plant Physiology
Plant protection
Plant Sciences
R&D
Research & development
research and development
rooting
Salt tolerance
seed priming
soil drenching
viruses
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Summary:A biostimulant is an organic material that, when applied in small quantities, enhances plant growth and development such that the response cannot be attributed to the application of traditional plant nutrients. This review is aimed at highlighting developments in the processing of macroalgae for agricultural biostimulants (AB), summarising the biologically active components of brown macroalgae and examining the factors supporting the use of macroalgal AB for managing abiotic and biotic stresses in crop plants. The policy drivers supporting the use of macroalgal-derived ABs in agriculture are also emphasised. We examine the use of macroalgal ABs in crop production and evaluated the benefits of seed priming, foliar application, soil drenches and hydroponic treatments. The use of macroalgal ABs on crop plants can generate multiple benefits with reported effects including enhanced rooting, higher crop and fruit yields, freezing, drought and salt tolerance, enhanced photosynthetic activity and resistance to fungi, bacteria and virus. ABs can be applied as an alternative, or used in conjunction with synthetic crop protection products and plant growth regulators, and may have a role in maintaining crop production levels, health and quality in the future when many active ingredients will be lost to the industry due to changes in European Union regulations. Worldwide, macroalgae remain largely unexploited, we highlight some of the future research and development priorities.
ISSN:0921-8971
1573-5176
DOI:10.1007/s10811-013-0101-9