Impact of biochar on growth, biochemical parameters and nutrients content of volkamer lemon (C. Volkameriana, Tenx Pasq.) Under saline condition [electronic resource].

By: Language: English Summary language: Arabic Description: p. 305-314Other title:
  • تأثيرالبيوشارعلى النمو والقياسات البيوكيماوية ومحتوى العناصر الغذائية لليمون الفولكاماريانا تحت الظروف الملحية [Added title page title]
Uniform titles:
  • Egyptian journal of horticulture, 2018 v. 45 (2) [electronic resource].
Subject(s): Online resources: In: Egyptian Journal of Horticulture 2018.v.45(2)Summary: New strategies for plant adaptation with soil affected by salinity are needed. Recent studies on different crops introduced biochar as a promising soil amendment that ameliorate problems associated with salinity stress. Here the study proof that biochar helps seedlings of Volkamer lemon (C. volkameriana, Tenx pasq.) copping with salt stress. Uniform three months old seedlings were transferred in a mixture media consists of sand: peat moss: biochar, 4: 2: 0.5 or 1 v/v, respectively. The plants were subjected to 0, 100 and 200 mM NaCl. The performance were determined by growths related to fresh (F.W)and dry mass (D.W), leaf area, shoot and root length, shoot diameter and root width, shoot/root and water content. Electrical conductivity (EC), Relative chlorophyll content (RCC) and proline content as biochemical parameters were measured. The elements of N, P, K+, Na+ and K+/Na+ ratio were looked up. The results indicated that biochar decreased the salinity effect on plant performance. Plants grown under salt stress in a mixture media contained biochar showed higher content of chlorophyll, N, P and K+ but showed lower content of shoot/root, K+/Na+, proline, EC and Na+ than those grown in the media free of biochar. These results supported the views that introduce biochar as a promising application in mitigating the negative effects of salinity stress on volkamer lemon seedlings.
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New strategies for plant adaptation with soil affected by salinity are needed. Recent studies on different crops introduced biochar
as a promising soil amendment that ameliorate problems associated with salinity stress. Here the study proof that biochar helps seedlings
of Volkamer lemon (C. volkameriana, Tenx pasq.) copping with salt stress. Uniform three months old seedlings were transferred in a mixture
media consists of sand: peat moss: biochar, 4: 2: 0.5 or 1 v/v, respectively. The plants were subjected to 0, 100 and 200 mM NaCl.
The performance were determined by growths related to fresh (F.W)and dry mass (D.W), leaf area, shoot and root length, shoot diameter
and root width, shoot/root and water content. Electrical conductivity (EC), Relative chlorophyll content (RCC) and proline content as
biochemical parameters were measured. The elements of N, P, K+, Na+ and K+/Na+ ratio were looked up. The results indicated that biochar
decreased the salinity effect on plant performance. Plants grown under salt stress in a mixture media contained biochar showed higher
content of chlorophyll, N, P and K+ but showed lower content of shoot/root, K+/Na+, proline, EC and Na+ than those grown in the media
free of biochar. These results supported the views that introduce biochar as a promising application in mitigating the negative effects of
salinity stress on volkamer lemon seedlings.

Summary in Arabic.

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