Adesh Ramsubhag scite author profile

This study evaluated the effectiveness of a commercially available Ascophyllum nodosum alkaline extract as a plant growth stimulant and defense elicitor against foliar diseases of tomato and sweet pepper caused by Xanthomonas campestris pv. vesicatoria and Alternaria solani in a tropical environment. Foliar applications of 0.5% A . nodosum extract (AN) at 10-day intervals resulted in significant ( P < 0.05) increase in plant growth parameters, including plant height (40%), leaf number (50%), plant dry biomass (52%), root length (59%) and chlorophyll content (20%) compared to control. Treated plants also had a significantly higher number of flower clusters, flower numbers, fruits per cluster and total harvested fruit yield. The Ascophyllum extract significantly ( P < 0.05) reduced disease incidence by the pathogens in both crops under greenhouse and field conditions. The combinatory treatment of seaweed extract and a minimum dose of contact fungicide in field trials, recorded the overall lowest disease levels (60% reduction) and highest yield (57% increase). Investigations into the mechanisms of disease suppression revealed the effects of the extract in inducing the activities of defense-related enzymes including phenylalanine ammonia lyase, peroxidase, polyphenol oxidase, chitinase and β-1,3-glucanase, as well as the levels of total phenolic compounds. The effect on SA, JA and ET-mediated signalling defense pathways was examined by quantifying expression levels of marker genes including PR1-a , PinII and ETR-1 , for the above pathways respectively. Both crop plants treated with A . nodosum extract had significantly higher expression levels of the PinII and ETR-1 marker genes than controls. This was coupled with a marked increase in gene transcripts involved in auxin ( IAA ), gibberellin ( Ga2Ox ) and cytokinin ( IPT ) biosynthesis, which provides possible evidence for induced growth in plants treated with AN extract. Cross-talks between growth and defense responses as a result of seaweed extract application could evidently implicate the benefits of seaweed extract usage in sustainable crop production.

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Ascophyllum extract application causes reduction of disease levels in field tomatoes grown in a tropical environment

Ali

Ramkissoon

Ramsubhag

et al. 2016

Crop Protection

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Phytoelicitor activity of three Caribbean seaweed species on suppression of pathogenic infections in tomato plants

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Adesh Ramsubhag

The effect of Ascophyllum nodosum extract on the growth, yield and fruit quality of tomato grown under tropical conditions

Biostimulatory activities of Ascophyllum nodosum extract in tomato and sweet pepper crops in a tropical environment

Ascophyllum extract application causes reduction of disease levels in field tomatoes grown in a tropical environment

Phytoelicitor activity of Sargassum vulgare and Acanthophora spicifera extracts and their prospects for use in vegetable crops for sustainable crop production

Phytoelicitor activity of three Caribbean seaweed species on suppression of pathogenic infections in tomato plants

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