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Study of Drought Effects on Three Medicinal and Aromatic Plants Using Field Spectroscopy

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Water deficit is one of the major environmental issues affecting biodiversity. Drought-related works are conducted to explore the mechanisms involved in drought vulnerability or resistance and to adopt the most advantageous tool to monitor these changes. Field spectroscopy, an accessory tool of remote sensing, evaluates the reflectance to collect continuous spectrum from materials. In the conducted study, the potential of using UV-Near infrared (NIR) spectroscopy as a non-destructive and reliable approach in monitoring of drought effects on three Medicinal and Aromatic Plants species (MAPs): Lavandula stoechas, Cistus laurifolius and Pistacia lentiscus from Northern Morocco during dry (July 2021) and wet (March 2022) period was addressed. It was found that Lavandula stoechas species is more impacted by water deficit than Cistus laurifolius and Pistacia lentiscus. Indeed, this species has a lower reflectance in Visible and NIR regions of the spectrum after a period of drought and therefore a higher vulnerability to water deficit than the other two species.
Rocznik
Strony
155--162
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
  • GAT, FSTT, Abdelmalek Essaadi University, Old Airport Road, Km 10, Ziaten, BP: 416 Tangier, Morocco
  • GAT, FSTT, Abdelmalek Essaadi University, Old Airport Road, Km 10, Ziaten, BP: 416 Tangier, Morocco
  • GAT, FSTT, Abdelmalek Essaadi University, Old Airport Road, Km 10, Ziaten, BP: 416 Tangier, Morocco
Bibliografia
  • 1. Álvarez, S., Rodríguez, P., Broetto, F., Sánchez-Blanco, M.J. 2018. Long term responses and adaptive strategies of Pistacia lentiscus under moderate and severe deficit irrigation and salinity: Osmotic and elastic adjustment, growth, ion uptake and photosynthetic activity. Agricultural Water Management, 202, 253–262.
  • 2. Bzioui, M. 2005. Sub-regional report on water resources development in North Africa. In: United Nations ECfNA (ed), 2.
  • 3. Chakravarty, P., Kumar, M. 2019. Floral species in pollution remediation and augmentation of micrometeorological conditions and microclimate: An integrated approach. In Phytomanagement of Polluted Sites. Elsevier, 203–219.
  • 4. Dadach, M., Benajaoud, A., Mehdadi, Z. 2021. Salt and drought effect on germination and initial growth of lavandula stoechas: a potential candidate for rehabilitation of the mediterranean disturbed coastal lands. Ekológia, 40(4), 301–311.
  • 5. Dao, P.D., He, Y., Proctor, C. 2021. Plant drought impact detection using ultra-high spatial resolution hyperspectral images and machine learning. International Journal of Applied Earth Observation and Geoinformation, 102, 102364.
  • 6. Driouech, F., Stafi, H., Khouakhi, A., Moutia, S., Badi, W., ElRhaz, K., Chehbouni, A. 2021. Recent observed country‐wide climate trends in Morocco. International Journal of Climatology, 41, 855–874.
  • 7. Goetz, A.F., Vane, G., Solomon, J.E., Rock, B.N. 1985. Imaging spectrometry for earth remote sensing. Science, 228(4704), 1147–1153.
  • 8. Hanson, P.J., Weltzin, J.F. 2000. Drought disturbance from climate change: response of United States forests. Science of the total environment,262(3), 205–220.
  • 9. High Commission for Planning - Regional Directorate of Tangier-Tetouan-Al Hoceima. 2020. Monograph of the Tangier-Tetouan-Al Hoceima region, 236.
  • 10. IPCC. 2013. Climate change 2013: the physical science basis. Contribution of working group I to the fifth assessment report of the intergovernmental panel on climate change. Cambridge, UK, Cambridge University Press, 1 535.
  • 11. Jamaleddine, M., El Oualidi, J., Taleb, M.S., El Alaoui-Faris, F.E., Benzine, A. 2019. Les plantes aromatiques et médicinales au Maroc: statut, endémisme, chorologie et bioclimat. Médecine thérapeutique, 25(3), 185–191.
  • 12. Jones, J., Ellison, D., Ferraz, S., Lara, A., Wei, X., Zhang, Z. 2022. Forest restoration and hydrology. Forest Ecology and Management, 520, 120342.
  • 13. Kassogué, H., Bernoussi, A.S., Amharref, M., Ouardouz, M. 2019. Cellular automata approach for modelling climate change impact on water resources. International Journal of Parallel, Emergent and Distributed Systems, 34(1), 21–36.
  • 14. Knippertz, P., Christoph, M., Speth, P. 2003. Longterm precipitation variability in Morocco and the link to the large-scale circulation in recent and future climates. Meteorology and Atmospheric physics, 83(1), 67–88.
  • 15. Krichen, K., Ben Mariem, H., Chaieb M. 2014. Ecophysiological requirements on seed germination of a Mediterranean perennial grass (Stipa tenacissima L.) under controlled temperatures and water stress. S. Afr. J. Bot., 94, 210–217.
  • 16. Liu, L., Wang, J., Huang, W., Zhao, C., Zhang, B., Tong, Q. 2004. Estimating winter wheat plant water content using red edge parameters. International Journal of Remote Sensing, 25(17), 3331–3342.
  • 17. Liu, Q., Zhang, F., Zhao, X. 2022. The superiority of solar-induced chlorophyll fluorescence sensitivity over other vegetation indices to drought. Journal of Arid Environments, 204, 104787.
  • 18. Maidment, D.R. 1993. Handbook of hydrology (No. 631.587). McGraw-Hill.
  • 19. Miller, D.L., Alonzo, M., Meerdink, S.K., Allen, M.A., Tague, C.L., Roberts, D.A., McFadden, J.P. 2022. Seasonal and interannual drought responses of vegetation in a California urbanized area measured using complementary remote sensing indices. ISPRS Journal of Photogrammetry and Remote Sensing, 183, 178–195.
  • 20. Miller, D.L., Alonzo, M., Meerdink, S.K., Allen, M.A., Tague, C.L., Roberts, D.A., McFadden, J.P. 2022. Seasonal and interannual drought responses of vegetation in a California urbanized area measured using complementary remote sensing indices. ISPRS Journal of Photogrammetry and Remote Sensing, 183, 178–195.
  • 21. Nogués, S., Alegre, L. 2002. An increase in water deficit has no impact on the photosynthetic capacity of field-grown Mediterranean plants. Functional plant biology, 29(5), 621–630.
  • 22. Ollinger, S.V. 2011. Sources of variability in canopy reflectance and the convergent properties of plants. New Phytologist, 189(2), 375–394.
  • 23. Peñuelas, J., Llusia, J., Pinol, J., Filella, I. 1997. Photochemical reflectance index and leaf photosynthetic radiation-use-efficiency assessment in Mediterranean trees. International Journal of Remote Sensing, 18(13), 2863–2868.
  • 24. Rajakumari, S., Mahesh, R., Sarunjith, K.J., Ramesh, R. 2022. Building spectral catalogue for salt marsh vegetation, hyperspectral and multispectral remote sensing. Regional Studies in Marine Science, 102435.
  • 25. Satterwhite, M.B., Henley, J.P. 1990. Hyperspectral signatures (400 to 2500 nm) of vegetation, minerals, soils, rocks, and cultural features: Laboratory and field measurements. Army Engineer Topographic Labs Fort Belvoir VA.
  • 26. Sijelmassi, A. 2016. Les plantes médicinales du Maroc. Editions Le Fennec.
  • 27. Ustin, S.L., Roberts, D.A., Gamon, J.A., Asner, G.P., Green, R.O. 2004. Using imaging spectroscopy to study ecosystem processes and properties. BioScience, 54(6), 523–534.
  • 28. Woillez, M.N. 2019. Revue de littérature sur le changement climatique au Maroc: observations, projections et impacts. Papiers de recherche, 1–33.
  • 29. Yan, Y., Wu, C., Wen, Y. 2021. Determining the impacts of climate change and urban expansion on net primary productivity using the spatio-temporal fusion of remote sensing data. Ecological Indicators, 127, 107737.
  • 30. Zhang, Y., Liu, X., Jiao, W., Zeng, X., Xing, X., Zhang, L., Hong, Y. 2021. Drought monitoring based on a new combined remote sensing index across the transitional area between humid and arid regions in China. Atmospheric Research, 264, 105850.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6317edd5-8e81-4cdf-a88a-fcfd76111740
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