The Effect of Endophytic Bacteria Bacillus subtilis and Salicylic Acid on Some Resistance and Quality Traits of Stored Solanum tuberosum L. Tubers Infected with Fusarium Dry Rot.

Oksana Lastochkina,Svetlana Garipova,Darya Garshina,Recep Palamutoglu,Mohammadhadi Sobhani,Irina Shpirnaya,Liudmila Pusenkova,Ruslan Yuldashev,Cemal Kasnak,Ildar Mardanshin,Sasan Aliniaeifard

doi:10.3390/plants9060738

Abstract

The effect of endophytic Bacillus subtilis (strains 10-4, 26D) and their compositions with salicylic acid (SA) on some resistance and quality traits of stored potatoes infected with Fusarium dry rot were studied. The experiments were carried out on hydroponically grown Solanum tuberosum L. tubers that were infected before storage with Fusarium oxysporum and coated with B. subtilis 10-4, 26D with and without exogenous SA, and then stored for six months. It has been shown that 10-4, 26D, 10-4 + SA, and 26D + SA reduced in different levels (up to 30–50%) the incidence of F. oxysporum-caused dry rot (with the highest effect for 10-4 + SA). SA notably enhanced the positive effect of 10-4, while for 26D, such an effect was not observed. All of the tested treatments increased amylase (AMY) and AMY inhibitors activity in infected tubers, while decreased Fusarium-induced protease activity (except in the case of 10-4 + SA, which promoted a slight increase) was revealed. 10-4, 26D, and their compositions with SA decreased (in different degrees) the pathogen-caused lipid peroxidation, proline, and reducing sugars accumulation in potatoes after long-term storage. It was also discovered 10-4 and 26D, regardless of SA presence, decrease pathogen-induced glycoalkaloids α-Solanine and α-Chaconine accumulation and preserved increased levels of starch and total dry matter in infected stored potatoes. The findings indicate endophytic B. subtilis and its compositions with SA is a promising eco-friendly and bio-safe approach to cope with postharvest decays of potato during long-term storage; however, when developing preparations-compositions it should take into account the strain-dependent manner of B. subtilis action together with SA.

Highlights

Potato (Solanum tuberosum L.) is a valuable food crop with great importance in ensuring food security worldwide [1]
The artificial infection of potato tubers by F. oxysporum overtime led to a gradual increase in symptoms of Fusarium dry rot, reaching 100% by six months of storage was found (Figure 1A,B)
The results that are presented here establish that the treatment of potato tubers immediately before storage with endophytic bacteria B. subtilis (10-4, 26D) individually and in combinations with salicylic acid (SA) reduced the incidence of F. oxysporum-mediated dry rot in potatoes during long-term storage, with the highest protective effect upon application of composition B. subtilis

Summary

Introduction

Potato (Solanum tuberosum L.) is a valuable food crop with great importance in ensuring food security worldwide [1]. One of the most acute problems in modern agriculture and food industries is the loss of potato tubers (about 50–60% of the total harvest) during storage from diseases [2]. Fusarium dry rot of potato that is caused by Fusarium spp. is a major devastating disease that causes postharvest rotting in storage and seed tubers decay [3,4]. About thirteen different Fusarium spp. have been identified as agents that are responsible for potato dry rot worldwide. Pathogens often infect plants and live in their tissues without any typical disease symptoms at growing time and are not always visible at the time of harvest, but may rapidly appear after harvesting and become the major decay factor. Lesions appear as brown or black spots on the surface of the tuber.

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Discussion

Conclusion