A review of metabolic calorimetric applications in plant stress, waste management, and diagnostics
The majority of metabolic activities occur in adiabatic environments; carbon uptake in soils serves as a signal for thermal heat fluxes, and plants can spontaneously generate heat during metabolic processes. We discuss calorimetric studies that use basic chemical approaches, such as isoth...
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2024-09-01
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| author | Michael Bayode Ifeoluwaposi Ogundana Oluwatosin Ogundare Elizabeth Awodire Patience Abbah Israel Onifade Adeola Adeyolanu Stephen Okunade Samuel Ogboye Michael Elabiyi |
| author_facet | Michael Bayode Ifeoluwaposi Ogundana Oluwatosin Ogundare Elizabeth Awodire Patience Abbah Israel Onifade Adeola Adeyolanu Stephen Okunade Samuel Ogboye Michael Elabiyi |
| author_sort | Michael Bayode |
| collection | DOAJ |
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The majority of metabolic activities occur in adiabatic environments; carbon uptake in soils serves as a signal for thermal heat fluxes, and plants can spontaneously generate heat during metabolic processes. We discuss calorimetric studies that use basic chemical approaches, such as isothermal microcalorimetry (IMC) and differential scanning calorimetry (DSC), to investigate plant responses to abiotic and biotic stresses, vegetative growth, seed germination rate, and micropropagation viability. Calorimetric studies of waste materials, wastewater sludge, and effluents were also considered in concert with specified thermophysical variables that define these environmental phenomena, such as enhanced thermal and heat capacity. The IMC and DSC performance characteristics were also evaluated. Biologically exothermic reactions—which involve biotransformation mechanisms during composting, wastewater reuse, and organic sludge stability as physiochemical attributes of solid and liquid wastes via changes in heat release—influence plant dynamic stress variables. It is advised that these calorimetric studies be used in plant, soil, and waste bodies for ecosystem safety and integrity. IMC not only enhances our understanding of plant responses to stress and pathogens but also aids in achieving Sustainable Development Goal (SDG) 3 by enhancing diagnostic capabilities and disease management. Furthermore, IMC contributes to SDG 9 by fostering scientific research and innovation in microbiology, aligning with goals for industry, innovation, and infrastructure. The ongoing integration of DSC techniques with cutting-edge analytical methodologies could also permit the implementation of Smart, Measurable, Achievable, Relevant, Time-bound (SMART) goals for a precise and quantifiable strategy in environmental impact assessments. |
| format | Article |
| id | doaj-art-514a0042c28341a28f06847f550b4ba6 |
| institution | Kabale University |
| issn | 2837-4010 |
| language | English |
| publishDate | 2024-09-01 |
| publisher | Academia.edu Journals |
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| series | Academia Biology |
| spelling | doaj-art-514a0042c28341a28f06847f550b4ba62025-02-11T00:45:05ZengAcademia.edu JournalsAcademia Biology2837-40102024-09-012310.20935/AcadBiol7347A review of metabolic calorimetric applications in plant stress, waste management, and diagnosticsMichael Bayode0Ifeoluwaposi Ogundana1Oluwatosin Ogundare2Elizabeth Awodire3Patience Abbah4Israel Onifade5Adeola Adeyolanu6Stephen Okunade7Samuel Ogboye8Michael Elabiyi9Department of Microbiology, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Microbiology, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Microbiology, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Biochemistry, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Microbiology, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Microbiology, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Microbiology, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Microbiology, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Biochemistry, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria.Department of Microbiology, School of Life Sciences, Federal University of Technology Akure, Akure, Ondo State PMB 704, Nigeria. The majority of metabolic activities occur in adiabatic environments; carbon uptake in soils serves as a signal for thermal heat fluxes, and plants can spontaneously generate heat during metabolic processes. We discuss calorimetric studies that use basic chemical approaches, such as isothermal microcalorimetry (IMC) and differential scanning calorimetry (DSC), to investigate plant responses to abiotic and biotic stresses, vegetative growth, seed germination rate, and micropropagation viability. Calorimetric studies of waste materials, wastewater sludge, and effluents were also considered in concert with specified thermophysical variables that define these environmental phenomena, such as enhanced thermal and heat capacity. The IMC and DSC performance characteristics were also evaluated. Biologically exothermic reactions—which involve biotransformation mechanisms during composting, wastewater reuse, and organic sludge stability as physiochemical attributes of solid and liquid wastes via changes in heat release—influence plant dynamic stress variables. It is advised that these calorimetric studies be used in plant, soil, and waste bodies for ecosystem safety and integrity. IMC not only enhances our understanding of plant responses to stress and pathogens but also aids in achieving Sustainable Development Goal (SDG) 3 by enhancing diagnostic capabilities and disease management. Furthermore, IMC contributes to SDG 9 by fostering scientific research and innovation in microbiology, aligning with goals for industry, innovation, and infrastructure. The ongoing integration of DSC techniques with cutting-edge analytical methodologies could also permit the implementation of Smart, Measurable, Achievable, Relevant, Time-bound (SMART) goals for a precise and quantifiable strategy in environmental impact assessments.https://www.academia.edu/124110163/A_review_of_metabolic_calorimetric_applications_in_plant_stress_waste_management_and_diagnostics |
| spellingShingle | Michael Bayode Ifeoluwaposi Ogundana Oluwatosin Ogundare Elizabeth Awodire Patience Abbah Israel Onifade Adeola Adeyolanu Stephen Okunade Samuel Ogboye Michael Elabiyi A review of metabolic calorimetric applications in plant stress, waste management, and diagnostics Academia Biology |
| title | A review of metabolic calorimetric applications in plant stress, waste management, and diagnostics |
| title_full | A review of metabolic calorimetric applications in plant stress, waste management, and diagnostics |
| title_fullStr | A review of metabolic calorimetric applications in plant stress, waste management, and diagnostics |
| title_full_unstemmed | A review of metabolic calorimetric applications in plant stress, waste management, and diagnostics |
| title_short | A review of metabolic calorimetric applications in plant stress, waste management, and diagnostics |
| title_sort | review of metabolic calorimetric applications in plant stress waste management and diagnostics |
| url | https://www.academia.edu/124110163/A_review_of_metabolic_calorimetric_applications_in_plant_stress_waste_management_and_diagnostics |
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