An Evaluation of Inoculant Additives on Cell Viability and Their Effects on the Growth and Physiology of <i>Glycine max</i> L.
The development of efficient bioinoculant formulations requires compounds with stabilizing, thickening, and carrier functions to preserve microbial viability and promote biological activity in soil. However, the majority of studies evaluate inoculant formulations predominantly in terms of bacterial...
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2025-07-01
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| author | Francisco Rafael Santos da Conceição Layara Alexandre Bessa Marconi Batista Teixeira Bárbara Gonçalves Cruvinel Luciana Cristina Vitorino |
| author_facet | Francisco Rafael Santos da Conceição Layara Alexandre Bessa Marconi Batista Teixeira Bárbara Gonçalves Cruvinel Luciana Cristina Vitorino |
| author_sort | Francisco Rafael Santos da Conceição |
| collection | DOAJ |
| description | The development of efficient bioinoculant formulations requires compounds with stabilizing, thickening, and carrier functions to preserve microbial viability and promote biological activity in soil. However, the majority of studies evaluate inoculant formulations predominantly in terms of bacterial viability, overlooking other important performance parameters. This study employed an integrative approach combining in vitro and plant-based assays to assess the effects of starch, carboxymethyl cellulose (CMC), and trehalose in formulations containing <i>Azospirillum brasilense</i>, <i>Bradyrhizobium diazoefficiens</i>, <i>Methylobacterium symbioticum</i>, and <i>Paenibacillus alvei</i>, applied to <i>Glycine max</i> seeds. Our hypothesis was that the presence of these additives, each with distinct functional roles (starch as a slow-release carbon source, CMC as a structural agent and protector against physical stress, and trehalose as an osmoprotectant and membrane stabilizer), would influence not only bacterial viability but also the seed germination, growth, and physiological responses of inoculated <i>G. max</i> plants. Starch improved viability in <i>A. brasilense</i> formulations, while both starch and trehalose had positive effects on <i>M. symbioticum</i>. These additives also enhanced plant traits, including dry biomass, chlorophyll content, carboxylation efficiency (<i>A/Ci</i>), and photochemical efficiency (Fv/Fm and Pi_Abs). Trehalose was particularly effective in formulations with <i>B. diazoefficiens</i> and <i>M. symbioticum</i>, supporting its use as a versatile stabilizer. In contrast, CMC (0.25%) negatively impacted bacterial viability, especially for <i>B. diazoefficiens</i> and <i>P. alvei</i>, and impaired physiological parameters in <i>G. max</i> when combined with <i>M. symbioticum</i>. These results highlight the need to evaluate formulation components not only for their physical roles but also for their specific interactions with microbial strains and effects on host plants. Such an integrative approach is essential for designing stable, efficient bioinoculants that align with sustainable agricultural practices. |
| format | Article |
| id | doaj-art-6de49c107b3a4e4dbe85818f7886bfaa |
| institution | DOAJ |
| issn | 2073-4395 |
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| spelling | doaj-art-6de49c107b3a4e4dbe85818f7886bfaa2025-08-20T02:45:42ZengMDPI AGAgronomy2073-43952025-07-01157166810.3390/agronomy15071668An Evaluation of Inoculant Additives on Cell Viability and Their Effects on the Growth and Physiology of <i>Glycine max</i> L.Francisco Rafael Santos da Conceição0Layara Alexandre Bessa1Marconi Batista Teixeira2Bárbara Gonçalves Cruvinel3Luciana Cristina Vitorino4Laboratory of Metabolism and Genetics of Biodiversity, Instituto Federal Goiano, Rio Verde Campus, Rodovia Sul Goiana, Km 01, Rio Verde 75901-970, GO, BrazilLaboratory of Metabolism and Genetics of Biodiversity, Instituto Federal Goiano, Rio Verde Campus, Rodovia Sul Goiana, Km 01, Rio Verde 75901-970, GO, BrazilLaboratory of Hydraulics and Irrigation, Instituto Federal de Educação, Ciência e Tecnologia Goiano, Campus Rio Verde, Rio Verde 75906-750, GO, BrazilLaboratory of Metabolism and Genetics of Biodiversity, Instituto Federal Goiano, Rio Verde Campus, Rodovia Sul Goiana, Km 01, Rio Verde 75901-970, GO, BrazilSimple Agro Corporation, Rua Parque General Borges Forte, 400, Jardim Goiás, Rio Verde 75903-421, GO, BrazilThe development of efficient bioinoculant formulations requires compounds with stabilizing, thickening, and carrier functions to preserve microbial viability and promote biological activity in soil. However, the majority of studies evaluate inoculant formulations predominantly in terms of bacterial viability, overlooking other important performance parameters. This study employed an integrative approach combining in vitro and plant-based assays to assess the effects of starch, carboxymethyl cellulose (CMC), and trehalose in formulations containing <i>Azospirillum brasilense</i>, <i>Bradyrhizobium diazoefficiens</i>, <i>Methylobacterium symbioticum</i>, and <i>Paenibacillus alvei</i>, applied to <i>Glycine max</i> seeds. Our hypothesis was that the presence of these additives, each with distinct functional roles (starch as a slow-release carbon source, CMC as a structural agent and protector against physical stress, and trehalose as an osmoprotectant and membrane stabilizer), would influence not only bacterial viability but also the seed germination, growth, and physiological responses of inoculated <i>G. max</i> plants. Starch improved viability in <i>A. brasilense</i> formulations, while both starch and trehalose had positive effects on <i>M. symbioticum</i>. These additives also enhanced plant traits, including dry biomass, chlorophyll content, carboxylation efficiency (<i>A/Ci</i>), and photochemical efficiency (Fv/Fm and Pi_Abs). Trehalose was particularly effective in formulations with <i>B. diazoefficiens</i> and <i>M. symbioticum</i>, supporting its use as a versatile stabilizer. In contrast, CMC (0.25%) negatively impacted bacterial viability, especially for <i>B. diazoefficiens</i> and <i>P. alvei</i>, and impaired physiological parameters in <i>G. max</i> when combined with <i>M. symbioticum</i>. These results highlight the need to evaluate formulation components not only for their physical roles but also for their specific interactions with microbial strains and effects on host plants. Such an integrative approach is essential for designing stable, efficient bioinoculants that align with sustainable agricultural practices.https://www.mdpi.com/2073-4395/15/7/1668chlorophyll a fluorescenceinoculant formulationsgas exchangegerminationPGPRsstabilizers |
| spellingShingle | Francisco Rafael Santos da Conceição Layara Alexandre Bessa Marconi Batista Teixeira Bárbara Gonçalves Cruvinel Luciana Cristina Vitorino An Evaluation of Inoculant Additives on Cell Viability and Their Effects on the Growth and Physiology of <i>Glycine max</i> L. Agronomy chlorophyll a fluorescence inoculant formulations gas exchange germination PGPRs stabilizers |
| title | An Evaluation of Inoculant Additives on Cell Viability and Their Effects on the Growth and Physiology of <i>Glycine max</i> L. |
| title_full | An Evaluation of Inoculant Additives on Cell Viability and Their Effects on the Growth and Physiology of <i>Glycine max</i> L. |
| title_fullStr | An Evaluation of Inoculant Additives on Cell Viability and Their Effects on the Growth and Physiology of <i>Glycine max</i> L. |
| title_full_unstemmed | An Evaluation of Inoculant Additives on Cell Viability and Their Effects on the Growth and Physiology of <i>Glycine max</i> L. |
| title_short | An Evaluation of Inoculant Additives on Cell Viability and Their Effects on the Growth and Physiology of <i>Glycine max</i> L. |
| title_sort | evaluation of inoculant additives on cell viability and their effects on the growth and physiology of i glycine max i l |
| topic | chlorophyll a fluorescence inoculant formulations gas exchange germination PGPRs stabilizers |
| url | https://www.mdpi.com/2073-4395/15/7/1668 |
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