[1] Ting WH, Tan IA, Salleh SF, Wahab NA. Application of water hyacinth (Eichhornia crassipes) for phytoremediation of ammoniacal nitrogen: A review. Journal of water process engineering. 2018 Apr 1; 22:239-49.
[2] Gilchrist M, Winyard PG, Benjamin N. Dietary nitrate–good or bad? Nitric oxide. 2010 Feb 15;22(2):104-9.
[3] Shrimali M, Singh KP. New methods of nitrate removal from water. Environmental pollution. 2001 May 1;112(3):351-9.
[4] McCutcheon SC, Schnoor JL. Phytoremediation: transformation and control of contaminants. John Wiley & Sons; 2004 Apr 5.
[5] Tang X, Huang S, Scholz M, Li J. Nutrient removal in pilot-scale constructed wetlands treating eutrophic river water: assessment of plants, intermittent artificial aeration and polyhedron hollow polypropylene balls. Water, air, and soil pollution. 2009 Feb 1;197(1-4):61.
[6] فلاحی فاطمه، آیتی بیتا، گنجی دوست حسین. حذف نیترات توسط فرایند گیاهپالایی در مقیاس آزمایشگاهی. نشریۀ آب و فاضلاب. 1391؛ 23(1):57-65.
[7] Kadlec RH, Wallace S. Treatment wetlands. CRC press; 2008 Jul 22.
[8] Chen J, Shafi M, Li S, Wang Y, Wu J, Ye Z, et al. Copper induced oxidative stresses, antioxidant responses and phytoremediation potential of Moso bamboo (Phyllostachys pubescens). Scientific reports. 2015 Sep 4; 5:13554.
[9] Bartucca ML, Mimmo T, Cesco S, Del Buono D. Nitrate removal from polluted water by using a vegetated floating system. Science of the Total Environment. 2016 Jan 15; 542:803-8.
[10] AOCA. Standard methods for the examination of water & wastewater. 19th ed. Washington, DC: American Public Health Association;1995.
[11] Hamada AM, El-Enany AE. Effect of NaCl salinity on growth, pigment and mineral element contents, and gas exchange of broad bean and pea plants. Biologia Plantarum. 1994 Jan 1;36(1):75-81.
[12] Frost PC, Stelzer RS, Lamberti GA, Elser J. Ecological stoichiometry of trophic interactions in the benthos: understanding the role of C: N: P ratios in lentic and lotic habitats. Journal of the North American Benthological Society. 2002 Dec;21(4):515-28.
[13] صمیمی لقمانی سارا، عباسپور علی، قاسمزاده محمد، سمسار هانیه. نقش ﮔﯿﺎه آﺑﺰی ﻟﻮﯾﯽ در ﺣﺬف ﻧﯿﺘﺮوژن و ﻓﺴﻔﺮ از ﭘﺴﺎب ﺷﻬﺮی. ﻧﺸﺮیۀ پژوهشهای ﺣﻔﺎﻇﺖ آبوخاک. 1392؛20(5):99-114.
[14] Amin MM, Hashemi H, Bina B, Attar HM, Farrokhzadeh H, Ghasemian M. Pilot-scale studies of combined clarification, filtration, and ultraviolet radiation systems for disinfection of secondary municipal wastewater effluent. Desalination. 2010 Sep 30;260(1-3):70-8.
[15] دزواره قربانعلی، گنجی دوست حسین، آیتی بیتا. شوریزدایی فاضلاب به روش گیاهپالایی. هفتمین کنگره ملی مهندسی عمران؛ 1392؛ زاهدان، ایران.
[16] Shaikh F, Gul B, Li WQ, Liu XJ, Khan MA. Effect of calcium and light on the germination of Urochondra setulosa under different salts. Journal of Zhejiang University Science B. 2007 Jan 1;8(1):20-6.
[17] اسلامی اکبر، نعمتی رضا. بررسی حذف فلزات سنگین از محیطهای آبی با استفاده از فناوری زیست پالایی، مطالعه مروری. فصلنامة بهداشت در عرصه.1393؛(2)3.
[18] Cai XH, Brown C, Adhiya J, Traina SJ, Sayre RT. Growth and heavy metal binding properties of transgenic Chlamydomonas expressing a foreign metallothionein gene. International Journal of Phytoremediation. 1999 Jan 1;1(1):53-65.