# Plant‐Beneficial Streptomyces thermocarboxydus S3 Mitigates Heat Stress in Hydroponically Grown Lettuce

**Authors:** Benyapa Kitwetch, Yupa Chromkaew, Wasu Pathom-aree

PMC · DOI: 10.1155/sci5/3095586 · Scientifica · 2026-02-23

## TL;DR

A beneficial soil bacterium, Streptomyces thermocarboxydus S3, helps hydroponic lettuce grow better under heat stress by improving growth and protecting cells.

## Contribution

The study identifies Streptomyces thermocarboxydus S3 as a novel bioinoculant that mitigates heat stress in hydroponic lettuce.

## Key findings

- Inoculation with S. thermocarboxydus S3 improved lettuce growth parameters like fresh weight, dry weight, and chlorophyll content under heat stress.
- The strain induced osmoprotective compounds (proline and total soluble sugar) and reduced hydrogen peroxide levels, indicating stress mitigation.
- Root colonization by S. thermocarboxydus S3 supports its potential for long-term use in hydroponic systems.

## Abstract

Climate change presents a significant threat to global agriculture by increasing abiotic stresses that negatively impact crop yields. Lettuce (Lactuca sativa), a cool‐season crop, is particularly vulnerable to heat stress, which accelerates metabolism and increases respiration rates beyond photosynthetic capacity, ultimately leading to growth and yield reduction. In hydroponic systems, elevated temperatures further impair plant development by altering nutrient solubility and availability, resulting in deficiencies. Microbial bioinoculants offer a sustainable and ecofriendly strategy to mitigate heat stress and enhance plant performance in crop production. Actinobacteria, in particular, are recognized for their plant growth‐promoting properties. This study evaluates the effectiveness of Streptomyces thermocarboxydus S3 in enhancing hydroponic lettuce growth under heat stress conditions. Inoculation with S. thermocarboxydus S3 significantly improved key growth parameters, including fresh weight, dry weight, number of leaves, and chlorophyll content. The strain also induced the accumulation of osmoprotective compounds, such as proline and total soluble sugar (TSS), contributing to cellular protection under thermal stress Additionally, S. thermocarboxydus S3 reduced hydrogen peroxide (H2O2) levels, indicating a potential role in oxidative stress mitigation and activation of plant defense responses. Root colonization assays confirmed the strain’s ability to establish itself in the lettuce roots, supporting its applicability for long‐term application. These findings highlight S. thermocarboxydus S3 as a promising bioinoculant for promoting hydroponic lettuce growth under heat stress, offering a sustainable approach to crop production in the context of changing climate.

## Linked entities

- **Chemicals:** proline (PubChem CID 614), hydrogen peroxide (PubChem CID 784)
- **Species:** Lactuca sativa (taxon 4236), Streptomyces thermocarboxydus (taxon 59299)

## Full-text entities

- **Chemicals:** K (MESH:D011188), melatonin (MESH:D008550), superoxide (MESH:D013481), (NH4)6Mo7O24 (-), porphyrin (MESH:D011166), H2O2 (MESH:D006861), potassium persulfate (MESH:C009007), sodium hypochlorite (MESH:D012973), KNO3 (MESH:C023844), acetone (MESH:D000096), trichloroacetic acid (MESH:D014238), starch (MESH:D013213), MgSO4 (MESH:D008278), toluene (MESH:D014050), (NH4)2SO4 (MESH:D000645), Na2CO3 (MESH:C005686), KI (MESH:C066186), lipids (MESH:D008055), ABTS (MESH:C002502), ninhydrin (MESH:D009555), Ca (MESH:D002118), H2SO4 (MESH:C033158), ROS (MESH:D017382), glucose (MESH:D005947), JA (MESH:C011006), flavonoids (MESH:D005419), HNO3 (MESH:D017942), Magnesium (MESH:D008274), sodium nitroprusside (MESH:D009599), HClO4 (MESH:C576518), IAA (MESH:C030737), SA (MESH:D020156), oxygen (MESH:D010100), gallic acid (MESH:D005707), Nitrate (MESH:D009566), GA (MESH:C007842), Sugar (MESH:D000073893), P (MESH:D010758), L-proline (MESH:D011392), singlet oxygen (MESH:D026082), ABA (MESH:D000040), gold (MESH:D006046), Trolox (MESH:C010643), NaCl (MESH:D012965), CaCO3 (MESH:D002119), 2,2-diphenyl-1-picrylhydrazyl (MESH:C004931), agar (MESH:D000362), Chlorophyll (MESH:D002734), ketoconazole (MESH:D007654), EDTA (MESH:D004492), potassium phosphate (MESH:C013216), nitrogen (MESH:D009584), ethylene (MESH:C036216), Ammonium (MESH:D064751), phenolic acids (MESH:C017616), Carotenoid (MESH:D002338), nalidixic acid (MESH:D009268), water (MESH:D014867), phenol (MESH:D019800), hydroxyl (MESH:D017665)
- **Species:** Streptomyces thermocarboxydus (species) [taxon 59299], Arabidopsis sp. (species) [taxon 29726], Arabidopsis thaliana (mouse-ear cress, species) [taxon 3702], Actinomycetes bacterium (species) [taxon 1883427], Solanum lycopersicum (tomato, species) [taxon 4081], Triticum turgidum subsp. durum (durum wheat, subspecies) [taxon 4567], Sclerotinia minor (species) [taxon 38451], Streptomyces sp. (species) [taxon 1931], Cucumis sativus (cucumber, species) [taxon 3659], Oryza sativa (Asian cultivated rice, species) [taxon 4530], Rhizophagus intraradices (species) [taxon 4876], Brassica oleracea var. italica (asparagus broccoli, varietas) [taxon 36774], Sorghum bicolor (broomcorn, species) [taxon 4558], Lactuca sativa var. longifolia (Romaine lettuce, varietas) [taxon 1759395], Ectopseudomonas mendocina (species) [taxon 300], Cicer arietinum (chickpea, species) [taxon 3827], Glycine max (soybean, species) [taxon 3847], Saccharomyces cerevisiae (baker's yeast, species) [taxon 4932], Lactuca sativa (cultivated lettuce, species) [taxon 4236], Funneliformis mosseae (species) [taxon 27381], Brassica oleracea (wild cabbage, species) [taxon 3712], Brassica sp. (species) [taxon 3717], Actinomycetota (actinobacteria, phylum) [taxon 201174]

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## References

71 references — full list in the complete paper: https://tomesphere.com/paper/PMC12927965/full.md

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Source: https://tomesphere.com/paper/PMC12927965