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Effects of zeolite and water stress on growth, yield and chemical compositions of Aloe vera L

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  • Hazrati, Saeid
  • Tahmasebi-Sarvestani, Zeinolabedin
  • Mokhtassi-Bidgoli, Ali
  • Modarres-Sanavy, Seyed Ali Mohammad
  • Mohammadi, Hamid
  • Nicola, Silvana

Abstract

A. vera is one of the most economically important medicinal plants in many countries which is widely used in food, cosmetics and pharmaceutical industries. Water stress is the primary environmental factor that limits crop production. Therefore, in order to study the effects of water stress (20, 40, 60 and 80%) of the field capacity (FC) and zeolite (0, 4 and 8gkg−1 soil) on growth, yield and chemical compositions of A. vera an experiment was conducted in 2013 and 2014. The plants were harvested 90, 180 and 270days after imposing the treatments. The greatest number of new leaves and pup were produced by the plants irrigated 20 and 40% FC with 8g zeolite, respectively. Generally, the highest leaf fresh weight and gel fresh weight were observed 270days after imposing the treatments when plants were irrigated after depleting 40% of the FC and treated with 8g zeolite. Water use efficiency of A. vera increased with less water and more zeolite availability. In addition, the results indicated that the maximum aloin and proline accumulation were obtained 90days after imposing the treatments when the plants were irrigated after depleting 80% and 60% of the FC where no zeolite was applied, respectively. Irrigation after 80% depletion of the FC without zeolite application resulted in highest fructose and glucose content. In general, zeolite application could alleviate water stress adverse effects, and improved plant growth and yield. Severe water stress decreased leaf yield and plant growth while caused an increase in phytochemical and biochemical compounds.

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  • Hazrati, Saeid & Tahmasebi-Sarvestani, Zeinolabedin & Mokhtassi-Bidgoli, Ali & Modarres-Sanavy, Seyed Ali Mohammad & Mohammadi, Hamid & Nicola, Silvana, 2017. "Effects of zeolite and water stress on growth, yield and chemical compositions of Aloe vera L," Agricultural Water Management, Elsevier, vol. 181(C), pages 66-72.
    • Handle: RePEc:eee:agiwat:v:181:y:2017:i:c:p:66-72
    DOI: 10.1016/j.agwat.2016.11.026
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    1. Geerts, Sam & Raes, Dirk, 2009. "Deficit irrigation as an on-farm strategy to maximize crop water productivity in dry areas," Agricultural Water Management, Elsevier, vol. 96(9), pages 1275-1284, September.
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    5. Khajeeyan, Rahil & Salehi, Amin & Dehnavi, Mohsen Movahhedi & Farajee, Hooshang & Kohanmoo, Mohammad Amin, 2019. "Physiological and yield responses of Aloe vera plant to biofertilizers under different irrigation regimes," Agricultural Water Management, Elsevier, vol. 225(C).
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    7. González-Delgado, Mayra & Minjares-Fuentes, Rafael & Mota-Ituarte, María & Pedroza-Sandoval, Aurelio & Comas-Serra, Francesca & Quezada-Rivera, Jesús Josafath & Sáenz-Esqueda, Ángeles & Femenia, Anton, 2023. "Joint water and salinity stresses increase the bioactive compounds of Aloe vera (Aloe barbadensis Miller) gel enhancing its related functional properties," Agricultural Water Management, Elsevier, vol. 285(C).
    8. Satriani, A. & Catalano, M. & Scalcione, E., 2018. "The role of superabsorbent hydrogel in bean crop cultivation under deficit irrigation conditions: A case-study in Southern Italy," Agricultural Water Management, Elsevier, vol. 195(C), pages 114-119.
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