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1. Abiotic plant stress mitigation by Trichoderma species

   Ascomycetes of the genus Trichoderma are beneficial fungi that promote plant growth.

   Several fungal species can mitigate abiotic stress in plants.

   ...

   Hexon Angel Contreras-Cornejo, Monika Schmoll, ... John Larsen in Soil Ecology Letters

   Article 11 April 2024
   

2. Unboxing PGPR-mediated management of abiotic stress and environmental cleanup: what lies inside?

   Abiotic stresses including heavy metal toxicity, drought, salt and temperature extremes disrupt the plant growth and development and lowers crop...

   Deepak Kumar, Mohd. Ali, ... Puja Ohri in Environmental Science and Pollution Research

   Article 12 July 2024
   

3. Efficacy of zinc-based nanoparticles in alleviating the abiotic stress in plants: current knowledge and future perspectives

   Due to sessile, plants are unable to avoid unfavorable environmental conditions which leads to inducing serious negative effects on plant growth,...

   Ali Raza Khan, Wardah Azhar, ... Yinbo Gan in Environmental Science and Pollution Research

   Article 09 October 2023
   

4. Response of Cultivated Industrial Crops to Abiotic Stress: Strategies to Enhance Target Metabolite Productivity

   Medicinal and aromatic plants (MAPs) are known for their valuable secondary metabolites, such as terpenoids and steroids, fatty acid-derived...

   Rakesh Chandra Nainwal, Shweta Singh, ... Shri Krishna Tewari in Medicinal and Aromatic Plants

   Chapter 2024
   

5. Role of Micronutrients in Providing Abiotic Stress Tolerance

   Minerals and organic materials present in soil are responsible for regulatory activity of cell organelles. Micronutrients such as zinc, boron,...

   Husna Siddiqui, Priyanka Singh, ... Shamsul Hayat in Microbial Biofertilizers and Micronutrient Availability

   Chapter 2022
   

6. Microbial volatile compounds (MVCs): an eco-friendly tool to manage abiotic stress in plants

   Microbial volatile compounds (MVCs) are produced during the metabolism of microorganisms, are widely distributed in nature, and have significant...

   Hetvi Naik, Saborni Maiti, Natarajan Amaresan in Environmental Science and Pollution Research

   Article 02 August 2023
   

7. Non-thermal plasmas for disease control and abiotic stress management in plants

   Climate change is predicted to cause severe loss in agricultural production by increasing disease epidemics and intensifying abiotic stresses....

   Susmita C., S. P. Jeevan Kumar, ... Sanjay Kumar in Environmental Chemistry Letters

   Article 01 March 2022
   

8. Role of Endophytes in Abiotic Stress Tolerance: With Special Emphasis on Serendipita indica

   Abiotic stresses in soil occur due to high salinity, temperature, drought, heavy metals, and nutrients inhibit the functions of plants and cause a...

   Jaagriti Tyagi, Parul Chaudhary, ... Ajit Varma in International Journal of Environmental Research

   Article 30 July 2022
   

9. Exploring the Critical Function and Molecular Mechanism of WRKY Transcription Factor Family in Regulating Plant Response Under Abiotic Stress Conditions

   Environmental stresses adversely affect plant growth and development. However, the signaling pathways and metabolic response mechanisms may differ,...

   Samrat Banerjee, Arnab Mukherjee, ... Sujit Roy in New Frontiers in Plant-Environment Interactions

   Chapter 2023
   

10. Proline: A Key Player to Regulate Biotic and Abiotic Stress in Plants

    ProlineProline is multifunctional amino acid in plants that helps plant development and also assists in regulating biotic and abiotic stressAbiotic...

    Sanjay Singh, Prabha Singh, ... Shailesh K. Singh in Towards Sustainable Natural Resources

    Chapter 2022
    

11. Mitigating abiotic stresses using natural and modified stilbites synergizing with changes in oxidative stress markers in aquaculture

    In-depth mineralogical understanding and characterization are necessary to explore potential applications of clinoptilolites. In this study, the...

    D. Arunkumar, K. K. Krishnani, ... R. Abisha in Environmental Geochemistry and Health

    Article 07 March 2023
    

12. Characterization of a Multispectral Camera for Abiotic and Biotic Stress Detection in Greenhouse

    Nowadays, multispectral sensors are not commonly used in protected crops due to structural features and the presence of an artificial light. This...

    Alessandro Zanchin, Marco Sozzi, ... Carlo Duso in AIIA 2022: Biosystems Engineering Towards the Green Deal

    Conference paper 2023
    

13. Green Synthesis and Application of Biogenic Nanomaterials as a Blueprint in Mitigation of Abiotic Stress in Crop Plants: A Conceptual Review

    PlantsGreen synthesis being sessileBiogenic nanomaterials, constantly encounter environmental perturbations that restrict their growth, development,...

    Saswati Bhattacharya, Jayita Saha in Advancement of GI-Science and Sustainable Agriculture

    Chapter 2023
    

14. A comprehensive review on mitigating abiotic stresses in plants by metallic nanomaterials: prospects and concerns

    Nanotechnology seems to have the potential to improve crop yields and help to meet the United Nations 2030 Goal 2: Zero Hunger. The literature is...

    Vijay Rani Rajpal, Satya Prakash, ... Renu Deswal in Clean Technologies and Environmental Policy

    Article 05 July 2023
    

15. Role of ACC deaminase producing bacteria for abiotic stress management and sustainable agriculture production

    Plants are immobile and are exposed to various biotic and abiotic stresses, including heat, cold, drought, flooding, nutrient deficiency, heavy metal...

    Sapna Chandwani, Natarajan Amaresan in Environmental Science and Pollution Research

    Article 20 January 2022
    

16. Earthworm Aporrectodea molleri (oligochaeta)’s coelomic fluid-associated bacteria modify soil biochemical properties and improve maize (Zea mays L.) plant growth under abiotic stress conditions

    This study evaluated the impact of Aporrectodea molleri 's coelomic fluid-associated bacteria (CFB) on Zea mays L. growth and soil biochemical...

    Lamia Yakkou, Sofia Houida, ... Abdellatif El Harti in Environmental Science and Pollution Research

    Article 13 September 2022
    

17. Impact of Changing Abiotic Environment on Photosynthetic Adaptation in Plants

    Plants rely on photosynthesis to convert light energy into chemical energy. However, their photosynthetic performance can be greatly affected by...

    Noman Ahmad, Anees Irfan, ... Muhammad Ashar Ayub in New Frontiers in Plant-Environment Interactions

    Chapter 2023
    

18. Impact of Abiotic Stresses on Production of Secondary Metabolites in Medicinal and Aromatic Plants

    Medicinal plants have been used around the world in folk medicine for generations since ancient times, and today people enjoy using these natural...

    Josef Jampílek, Katarína Kráľová in New Frontiers in Plant-Environment Interactions

    Chapter 2023
    

19. Use of Tissue Culture Methods to Improve Stress Tolerance in Plants

    Nowadays, climate change has become a worldwide concern as it affects global food production and security. Among the consequences of climate change...

    Mouaad Amine Mazri, Meriyem Koufan, ... Ilham Belkoura in New Frontiers in Plant-Environment Interactions

    Chapter 2023
    

20. Elevational dynamics in soil microbial co-occurrence: Disentangling biotic and abiotic influences on bacterial and fungal networks on Mt. Seorak

    Fungi outperformed bacterial in maintaining the microbial co-occurrence networks.

    Fungi showed different elevational network co-occurrence pattern...

    Zhi Yu, Changbae Lee, ... Ke Dong in Soil Ecology Letters

    Article 06 May 2024