Tagetes erecta is an annual plant that is, in addition, to be used as an ornamental plant, it can also be used as an agent for phytoremediation. Glomus intraradices is one of the species of vesicular-arbuscular mycorrhizal (VAM) fungi which can be mutually symbiotic with various species of plants, including T. erecta.  This study was aimed to determine the effect of VAM fungi G. intraradices on the growth of T. erecta in growth media containing chromium. The study was carried out experimentally using a completely randomized design with treatments, namely Cr⁶⁺ concentrations of 0, 5 and 10 ppm in the form of K₂CrO₇, and the addition of VAM fungi G. intraradices in the growth media in the form of soil and mixture of soil: textile sludge (1: 1).  T. erecta was grown in four different growth media (soil, soil: textile sludge (1:1), soil+VAM, soil: textile sludge (1:1)+VAM) that was treated with Cr⁶⁺ and G. intraradices for 1.5 months. The growth of T. erecta was determined based on plant height, root length, root dry weight, shoot dry weight, and percentage of mycorrhizal infection. Data were analyzed with two-way Analysis of Variance (two-way ANOVA) and DMRT (Duncan's Multiple Range Test) with a test level of 5%. The results showed that the growth of T. erecta in media containing Cr⁶⁺ (5 and 10 ppm) decreased significantly compared to controls (without Cr⁶⁺ treatment).  The highest reduction of plant growth was found in media containing Cr⁶⁺ of 10 ppm. The addition of VAM fungi G. intraradices in soil media and soil: textile sludge that treated with Cr⁶⁺ was able to increase the growth of T. erecta. These results indicated that the VAM fungi G. intraradices were able to improve the ability of T. erecta to deal with chromium heavy metal stress. That results were also supported by the percentage of mycorrhizal infection in the roots of T. erecta grown in soil and soil: textile sludge (1:1) media with treatments of Cr⁶⁺ and VAM G. intraradices were higher than the control plants that was grown in soil and soil: textile sludge (1:1) media without treatments of Cr⁶⁺ and VAM G. intraradices.

Tagetes erecta; Glomus intraradices; phytoremediation; vesicular-arbuscular mycorrhizal; fungi

Davies FT, Puryear JD, Newton RJ, Egilla JN, Grossi JAS (2002) Mycorrhizal fungi increase chromium uptake by sunflower plants: influence on tissue mineral concentration, growth and gas exchange. J Plant Nutr 25:2389–2407.

Ferreira A D Q. 2002. The impact of chromium on biological systems. Quim Nova (in Portuguese). 25: 572–578.

Garbisu and I. Alkorta, 2001 “Phytoextraction: A cost effective plant-based technology for the removal of metals from the environment”. Biores Technol.77 (3): 229–236.

Gunawan, A.W. 1994. Mikoriza. Makalah pengajaran kursus singkat biologi cendawan. Institut Pertanian Bogor. .

Harminder Pal Singh, Priyanka Mahajan, Shalinder Kaur, Daizy R. Batish, Ravinder K. Kohli, 2013., Chromium toxicity and tolerance in plants Environ Chem Lett 11:229–254

Kabata-Pendias A, Mukherjee A B. 2007. Trace Elements fromSoil to Human. Springer, New York

Lorenzi H, Souza H M. 2001. Ornamental Plants in Brazil (in Portuguese). 3rd Edn. Instituto Plantarum, Nova Odessa.

Livita C.C., Ana Rose B., Paula J.P., Guilherme A.S., Janice G.C., Viviane A.T., Luis E.A.O., Rimena R.D. Valmer F., 2017. Marigold (Tagetes erecta) : The Potential Value In Phytoremediasi Of Chromium. Pedosphere 27 (3): 559 – 567.

Martinez P.M. , Cort’es C.A., Avila G.E. 2004. Evaluation of the three pigment levels of marigold petals (Tagetes erecta) on skin pigmentatiton of broiler chicken. Tec Pecu Mex. 42: 105-111.

Nagahashi, D.D. Douds and G.D. Abney, Phosphorus amendment inhibits hyphal branching of VAM fungus Gigaspora margarita directly and indirectly through its effect on root exudation, Mycorrhizae, 6(1996), 403-408.

Oliveira, H. 2012. Cromium as an Enviromental Pollutant: Insights on Introduced Plant Toxicity. Vol. 2012, Article ID 375843.

Plugaru S., Orban M., Sarb A., Rusu T., 2016. Chromium : toxicity and tolerance in plants. A Review. Ecoterra : Journal of Environmental Research and Protection 13 (4).

Shanker A K, Cervantes C, Loza-Tavera H, Avudainayagam S.2005. Chromium toxicity in plants. Environ Int. 31: 739–753

Sundaramoorthy P, Chidambaram A, Ganesh KS, Unnikannan P, Baskaran L (2010) Chromium stress in paddy: (i) nutrient status of paddy under chromium stress; (ii) phytoremediation of chromium by aquatic and terrestrial weeds. CR Biol 333:597–607.