Mon, May 26, 2025
[Archive]
.png)
Volume 5, Issue 1 (3-2019)
jhehp 2019, 5(1): 9-14 |
Back to browse issues page
Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:
Baghaie A H, Daliri A. Effect of Applying Sunflower Residues as a Green Manure on Increasing Zn Concentration of Two Iranian Wheat Cultivars in a Pb and Cd Polluted Soil. jhehp 2019; 5 (1) :9-14
URL: http://jhehp.zums.ac.ir/article-1-202-en.html
URL: http://jhehp.zums.ac.ir/article-1-202-en.html
1- Department of Soil Science, Arak Branch, Islamic Azad University, Arak, Iran.
Abstract: (11595 Views)
Background: This research was investigated to evaluate effect of applying sunflower residues as a green manure on increasing zinc (Zn) concentration of two Iranian wheat cultivars in a Pb and cadmium (Cd) polluted soil.
Methods: Treatments included the application of sunflower residuals grown in a Zn-polluted soil at two levels of 0 and 8 t/ha, two wheat cultivars in a soil contaminated with Pb (0, 400 and 800 mg Pb/kg soil) and Cd (0, 5 and 10 mg Cd/kg soil). After 7 months of the experiment. Plant Pb, Zn and Cd concentrations were measured using atomic absorption spectroscopy.
Results: The highest root and shoot Zn concentration of wheat plant was belonged to the Back cross cultivar. Addition of 8 t/ha sunflower residues in soil without Pb and Cd pollution increased the root Zn concentration of Back Cross and Kavir cultivars by 12 and 16%, respectively. The highest and lowest Zn translocation factor of wheat plants was belonged to Back Cross and Kavir cultivars, respectively.
Conclusion: Applying sunflower residues has a significant effect on increasing plant Zn concentration and can be useful as a suitable way to increase Zn concentration of wheat grown in Zn deficient and heavy metal polluted soils.
Methods: Treatments included the application of sunflower residuals grown in a Zn-polluted soil at two levels of 0 and 8 t/ha, two wheat cultivars in a soil contaminated with Pb (0, 400 and 800 mg Pb/kg soil) and Cd (0, 5 and 10 mg Cd/kg soil). After 7 months of the experiment. Plant Pb, Zn and Cd concentrations were measured using atomic absorption spectroscopy.
Results: The highest root and shoot Zn concentration of wheat plant was belonged to the Back cross cultivar. Addition of 8 t/ha sunflower residues in soil without Pb and Cd pollution increased the root Zn concentration of Back Cross and Kavir cultivars by 12 and 16%, respectively. The highest and lowest Zn translocation factor of wheat plants was belonged to Back Cross and Kavir cultivars, respectively.
Conclusion: Applying sunflower residues has a significant effect on increasing plant Zn concentration and can be useful as a suitable way to increase Zn concentration of wheat grown in Zn deficient and heavy metal polluted soils.
Type of Study: Original Article |
Subject:
Environmental Health, Sciences, and Engineering
Received: 2018/10/7 | Accepted: 2019/01/7 | Published: 2019/03/21
Received: 2018/10/7 | Accepted: 2019/01/7 | Published: 2019/03/21
References
1. Beygi M, Jalali M. Assessment of Trace Elements (Cd, Cu, Ni, Zn) Fractionation and Bioavailability in Vineyard Soils from the Hamedan, Iran. Geoderma. 2019; 337: 1009-20. [Crossref]
2. Goloran JB, Johnson Beebout SE, Morete MJ, Impa SM, Kirk GJD, Wissuwa M. Grain Zn Concentrations and Yield of Zn-biofortified Versus Zn-Efficient Rice Genotypes Under Contrasting Growth Conditions. Field Crop Res. 2019; 234: 26-32. [Crossref]
3. Shirani H, Hosseinifard S, Hashemipour H. Factors Affecting Cadmium Absorbed by Pistachio Kernel in Calcareous Soils, Southeast of Iran. Sci Total Environ. 2018; 616: 881-8. [Crossref]
4. Latifi Z, Jalali M. Trace Element Contaminants in Mineral Fertilizers Used in Iran. Environ Sci Pollut Res. 2018; 25(32): 31917-28. [Crossref]
5. De Figueiredo CC, Chagas JKM, da Silva J, Paz-Ferreiro J. Short-Term Effects of a Sewage Sludge Biochar Amendment on Total and Available Heavy Metal Content of a Tropical Soil. Geoderma. 2019; 344: 31-9. [Crossref]
6. Falahati Marvast A, Hosseinpur A, Tabatabaei S. Effect of Salinity and Sewage Sludge on Heavy Metal Availability and Uptake by Barley Plant. J Water Soil. 2013; 27(5): 985-97.
7. Ishfaq M, Kiran A, Khaliq A, Cheema SA, Alaraidh IA, Hirotsu N, et al. Zinc Biofortified Wheat Cultivar Lessens Grain Cadmium Accumulation under Cadmium Contaminated Conditions. Int J Agric Biol. 2018; 20(12): 2842-46.
8. Meena N, Meena M, Sharma K, Meena M. Effect of Zinc Enriched Farm Yard Manures on Yield of Mung Bean and Physico-Chemical Properties of Soil. Legume Res: An Int J. 2018; 41(5): 734-9. [Crossref]
9. Dorostkar V, Afyuni M, Khoshgoftarmanesh A. Effects of Preceding Crop Residues on Total and Bio-available Zinc Concentration and Phytic Acid Concentration in Wheat Grain. J Water Soil Sci. 2013; 17(64): 81-93.
10. Habiby H, Afyuni M, Khoshgoftarmanesh AH, Schulin R. Effect of Preceding Crops and Their Residues on Availability of Zinc in a Calcareous Zn-deficient Soil. Biol Fertility Soil. 2014; 50: 1061-7. [Crossref]
11. Baghaie AH, Aghili F, Hassani Joshaghani A. Applying Tire Rubber Ash Enriched Cow Manure as a Useful Way to Decrease Canola Cd Uptake in a Polluted Soil. Jundishapur J Health Sci. 2018; 10(4): e82610. [Crossref]
12. Lindsay WL, Norvell WA. Development of a DTPA Soil Test for Zinc, Iron, Manganese, and Copper. Soil Sci Soc Am J. 1978; 42: 421-8. [Crossref]
13. Sharifi M, Afyuni M, Khoshgoftarmanesh A. Effects of Sewage Sludge, Animal Manure, Compost and Cadmium Chloride on Cadmium Accumulation in Corn and Alfalfa. J Residual Sci Tech. 2010; 7(4): 219-25.
14. Yashim ZI, Kehinde Israel O, Hannatu M. A Study of the Uptake of Heavy Metals by Plants Near Metal-Scrap Dumpsite in Zaria, Nigeria. J Appl Chem. 2014; 4: 1-5. [Crossref]
15. Daneshbakhsh B, Khoshgoftarmanesh AH, Shariatmadari H. Effect of Zinc Nutrition in Solution Culture on Phytosiderophore Release by Roots of Three Different Zinc-Efficient Wheat Genotypes. J Water Soil Sci. 2013; 17(65): 199-209.
16. Malian M, Khoshgoftarmanesh AH, Shariati H, Majidi MM, Sharifi HR, Sanaee A. The Effect of Zinc Fertilizer Application on Grain Yield of Different Zinc-Efficient Spring and Winter Wheat Cultivars. J Crop Product Process. 2014; 4(12): 157-70.
17. Liu CH, Chu W, Li H, Boyd SA, Teppen BJ, Mao J, et al. Quantification and Characterization of Dissolved Organic Carbon from Biochars. Geoderma. 2019; 335: 161-9. [Crossref]
18. Zhang X, Li Z, Nie X, Huang M, Wang D, Xiao H, et al. The Role of Dissolved Organic Matter in Soil Organic Carbon Stability Under Water Erosion. Ecol Indicator. 2019; 102: 724-33. [Crossref]
19. Baghbani Arani A, Modarres Sanavy SAM, Kadkhodaie A. Effect of Wheat and Bean Residue along with Zinc Sulfate on Zinc and Iron Concentration and Grain Yeild of wheat. J Agric Sci Sustain Product. 2015; 25(3): 91-102.
20. Aghili F, Gamper HA, Eikenberg J, Khoshgoftarmanesh AH, Afyuni M, Schulin R, et al. Green Manure Addition to Soil increases Grain Zinc Concentration in Bread Wheat. PloS One. 2014; 9(7): e101487. [Crossref]
21. Qin F, Liu G, Huang G, Dong T, Liao Y, Xu X. Zinc Application Alleviates the Adverse Effects of Lead Stress More in Female Morus alba Than in Males. Environ Experiment Botany. 2018; 146: 68-76. [Crossref]
22. Daneshbakhsh B, Khoshgoftarmanesh AH, Shariatmadari H, Cakmak I. Phytosiderophore Release by Wheat Genotypes Differing in Zinc Deficiency Tolerance Grown with Zn-Free Nutrient Solution as Affected by Salinity. J Plant Physiol. 2013; 170(1): 41-6. [Crossref]
23. Khoshgoftarmanesh AH, Afyuni M, Norouzi M, Ghiasi S, Schulin R. Fractionation and Bioavailability of Zinc (Zn) in the Rhizosphere of Two Wheat Cultivars with Different Zn Deficiency Tolerance. Geoderma. 2018; 309: 1-6. [Crossref]
24. Giles CD, Brown LK, Adu MO, Mezeli MM, Sandral GA, Simpson RJ, et al. Response-Based Selection of Barley Cultivars and Legume Species for Complementarity: Root Morphology and Exudation in Relation to Nutrient Source. Plant Sci. 2017; 255: 12-28. [Crossref]
25. Rehman A, Farooq M, Ozturk L, Asif M, Siddique KH. Zinc Nutrition in Wheat-based Cropping Systems. Plant Soil. 2018; 422(1-2): 283-315. [Crossref]
26. Baghaie A. Effect of Tire Rubber Ash Enriched Municipal Waste Compost on Decreasing Spinach Cd Concentration (a Case Study: Arak Municipal Waste Compost. Iran J Health Environ. 2017; 10(3): 401-10.
27. Houshyar P, Baghaei A. Effectiveness of DTPA Chelate on Cd Availability in Soils Treated with Sewage Sludge. J Water Wastewater. 2017; 28(4): 103-11.
28. Abid R, Manzoor M, De Oliveira LM, da Silva E, Rathinasabapathi B, Rensing C, et al. Interactive Effects of As, Cd and Zn on Their Uptake and Oxidative Stress in As-hyperaccumulator Pteris vittata. Environ Pollut. 2019; 248: 756-62. [Crossref]
29. Tabarteh Farahani N, Baghaie A, Polous A. Effect of Enriched Cow Manure with Converter Sludge on Fe bio-Availability in a Lead Polluted Soil. J Water Soil Conserv. 2017; 24(1): 205-20.
30. Molaei S, Shirani H, Hamidpour M, Shekofteh H, Besalatpour AA. Effect of Vermicompost, Pistachio Kernel and Shrimp Shell on Some Growth Parameters and Availability of Cd, Pb and Zn in Corn in a Polluted Soil. J Water Soil Sci. 2016; 19(74): 113-24. [Crossref]
Send email to the article author
| Rights and permissions | |
 |
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. |
© 2024 The Author(s)
