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Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security

Cilt: 14 Sayı: 1 28 Haziran 2024
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Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security

Öz

Over the past 100 years, the rapid growth in population from 2 billion to 8 billion has significantly impacted the environment and climate change. In addition, food consumption has skyrocketed, and there are widespread worries about global food security. Due to inadequate soil and plant management techniques, including high soil tillage, chemical fertilizers, inappropriate irrigation, and genetically engineered crops, this spike has made it more difficult to guarantee food security for everyone on the planet. These actions have resulted in societal unrest, climatic change, and land degradation. With organic carbon mineralization, more CO2 is released into the atmosphere because of atmospheric heating and climate change. Long-term greenhouse gasses released into the atmosphere cause global climate change. Increasing climate changes and the inefficiency of soil productivity result in the natural effects of the rhizosphere on plant growth and food security. One of the most effective mechanisms of the rhizosphere is mycorrhizal fungi, which are injured microorganisms. Frequently disregarded mycorrhizal fungi present a potential solution. While sequestering carbon from the atmosphere, they can increase agricultural yields, plant health, and soil fertility. For sustainable agriculture and environmental preservation, it is essential to understand and take advantage of the potential of mycorrhizal fungi. A crucial area for study and practical application is the function of mycorrhizal fungi in reducing these difficulties and enhancing food security. Considering rising environmental challenges, understanding their contributions and researching their relationships may help create a more stable and secure global food system..

Anahtar Kelimeler

Etik Beyan

Ethical statement is acepted

Teşekkür

Thanks to organisation for supporting

Kaynakça

  1. Amir, H., Lagrange, A., Hassaine, N., & Cavaloc, Y. (2013). Arbuscular mycorrhizal fungi from New Caledonian ultramafic soils improve tolerance to nickel of endemic plant species. Mycorrhiza, 23(7), 585-595. doi:10.1007/s00572-013-0499-6
  2. Augé, R. M. (2001). Water relations, drought and vesicular-arbuscular mycorrhizal symbiosis. Mycorrhiza, 11(1), 3- 42.
  3. Bago, B., Pfeffer, P. E., & Shachar-Hill, Y. (2000). Carbon metabolism and transport in arbuscular mycorrhizas. Plant Physiology, 124(3), 949-958.
  4. Bahn, M., Rodeghiero, M., Anderson-Dunn, M., Dore, S., Gimeno, C., Drösler, M., . . . Flechard, C. (2008). Soil respiration in European grasslands in relation to climate and assimilate supply. Ecosystems, 11(8), 1352-1367.
  5. Brussaard, L., De Ruiter, P. C., & Brown, G. G. (2007). Soil biodiversity for agricultural sustainability. Agriculture, Ecosystems & Environment, 121(3), 233-244.
  6. Chen, M., Arato, M., Borghi, L., Nouri, E., & Reinhardt, D. (2018). Beneficial Services of Arbuscular Mycorrhizal Fungi - From Ecology to Application. Frontiers in Plant Science, 9, 14. doi:10.3389/fpls.2018.01270
  7. Clemmensen, K. E., Bahr, A., Ovaskainen, O., Dahlberg, A., Ekblad, A., Wallander, H., . . . Lindahl, B. D. (2013). Roots and associated fungi drive long-term carbon sequestration in boreal forest. Science, 339(6127), 1615-1618. doi:10.1126/science.1231923
  8. Compant, S., van der Heijden, M. G. A., & Sessitsch, A. (2010). Climate change effects on beneficial plant- microorganism interactions. Fems Microbiology Ecology, 73(2), 197-214. doi:10.1111/j.1574-6941.2010.00900.x

Ayrıntılar

Birincil Dil

İngilizce

Konular

Toprak Ekolojisi

Bölüm

Derleme

Yayımlanma Tarihi

28 Haziran 2024

Gönderilme Tarihi

5 Eylül 2023

Kabul Tarihi

5 Ocak 2024

Yayımlandığı Sayı

Yıl 2024 Cilt: 14 Sayı: 1

Kaynak Göster

APA
Ortaş, İ. (2024). Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security. Manas Journal of Agriculture Veterinary and Life Sciences, 14(1), 101-115. https://doi.org/10.53518/mjavl.1355101
AMA
1.Ortaş İ. Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security. Manas J Agr Vet Life Sci. 2024;14(1):101-115. doi:10.53518/mjavl.1355101
Chicago
Ortaş, İbrahim. 2024. “Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security”. Manas Journal of Agriculture Veterinary and Life Sciences 14 (1): 101-15. https://doi.org/10.53518/mjavl.1355101.
EndNote
Ortaş İ (01 Haziran 2024) Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security. Manas Journal of Agriculture Veterinary and Life Sciences 14 1 101–115.
IEEE
[1]İ. Ortaş, “Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security”, Manas J Agr Vet Life Sci, c. 14, sy 1, ss. 101–115, Haz. 2024, doi: 10.53518/mjavl.1355101.
ISNAD
Ortaş, İbrahim. “Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security”. Manas Journal of Agriculture Veterinary and Life Sciences 14/1 (01 Haziran 2024): 101-115. https://doi.org/10.53518/mjavl.1355101.
JAMA
1.Ortaş İ. Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security. Manas J Agr Vet Life Sci. 2024;14:101–115.
MLA
Ortaş, İbrahim. “Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security”. Manas Journal of Agriculture Veterinary and Life Sciences, c. 14, sy 1, Haziran 2024, ss. 101-15, doi:10.53518/mjavl.1355101.
Vancouver
1.İbrahim Ortaş. Under Long-Term Agricultural Systems, the Role of Mycorrhizae in Climate Change and Food Security. Manas J Agr Vet Life Sci. 01 Haziran 2024;14(1):101-15. doi:10.53518/mjavl.1355101

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