The Effect of Sequence and Time Interval of Adding Adjuvant and Sulfosulfuron to Hard Water in the Control of Winter Wild Oat (Avena sterilis ssp. ludoviciana Durieu.)

Document Type : Research Article

Authors

Faculty of Agriculture, Bu-Ali Sina University, Hamedan, Iran

Abstract

Introduction: In arid regions such as Iran, water hardness, as a result of existence of calcium- and magnesium-containing minerals, is a serious challenge for irrigation practice. The irrigation systems are often applied to spray herbicides. Therefore, using hard water having high cations for herbicide application is inevitable. Such water can adversely affect the activity of some herbicides particularly weak acid ones. A solution for overcoming this problem is the addition of an adjuvant to the tank. It is well established that the addition of (NH4)2SO4 (43) and C6H8O7 (45) will efficiently remove the cations of hard water from the spray solution of weak acid herbicides. However, there is no report on whether the efficacy of sulfosulfuron (a weak acid herbicide, pKa = 3.5) is affected by the cations of hard water. Furthermore, it is observed in literature and practice that the addition of herbicide to the tank is immediately done after adding the adjuvant to the tank. Thus, there is no report on whether the sequence and time interval of adding adjuvant and herbicide to hard water could be affected by the efficacy of weak acid herbicide.
Materials and Methods: The seeds of winter wild oat (Avena sterilis ssp. ludoviciana Durieu.) were primed in the same method which was already described (3). Then, eight seedlings with a 1-cm radicle and 0.5-cm coleoptile were transplanted at a 1-cm depth within each 3-liter pot filled with a 1:1:4 ratio of sand: animal manure: clay loam soil, respectively. The experiment was carried out as a dose-response study in a completely randomized design with three factorial (6×4×7) and four replications. The 1st factor was the dose of sulfosulfuron(0, 1.25, 2.5, 5, 10, and 20 g a.i. ha-1). The 2nd factor included the type of spray carrier (distilled water, hard water containing sodium chloride (NaCl), calcium chloride (CaCl2) and iron chloride (CaFe3) at 600 mg L-1). The 3rd factor was also the sequence and time interval of adding adjuvant and herbicide to the spray carrier (with and without adding 500 mg citric acid (C6H8O7) L-1 or 20 g ammonium sulfate ((NH4)2SO4) L-1 at 30 min before, simultaneous, and 30 min after adding sulfosulfuron to the spray carrier). Five weeks after spraying, the response of individual dry weight of winter wild oat to treatments was analyzed as a nonlinear regression. This was carried out by using a four parametric logistic model (36) to estimate the values of ED50 and ED90 which are the doses of sulfosulfuroncausing a 50 and 90% reduction in the dry weight as compared to the control, respectively. 
Results and Discussion: In contrast to ammonium sulfate which was ineffective, the addition of citric acid to distilled water under each sequence and time interval improved the efficacy of sulfosulfuron. Decreasing the pH can permit the weak acidic herbicides to pass through the cuticle and then cell membrane during the ionic trap process. The presence of Na+, Ca++ and Fe+++ cations in the spray carrier increased the amount of sulfosulfuron required for 90% reduction in the dry weight of winter wild oat from 9.80 to 27.60, 47.48, and 50.32 g ha-1, respectively. There was no significant difference between the intensity of the incompatibility of Ca++ and Fe+++ cations. Similar to other weak acid herbicides, sulfosulfuron can also be ionized into anionic (a negatively charged form) and cationic (H+) fragments under alkaline conditions. The anionic part of sulfosulfuron bonds with the cations in hard water. As a result, a crystalline herbicide-cation salt is formed which is not able to pass through the cuticle due to its low solubility in water. The addition of both adjuvants 30 min after the addition of sulfosulfuron to distilled water containing the cations had no effect on removing the adverse effect of cations on the efficacy of sulfosulfuron. Conversely, adding sulfosulfuron 30 min after the addition of both adjuvants to the distilled water containing the cations provided the best efficacy of sulfosulfuron. When the adjuvants are added to hard water before herbicide, the cations of hard water can receive the cation of H+ from citric acid or NH4+ from ammonium sulfate. Then, the formation and sediment of the cation-anion salt turns hard water into soft water, having no problem with the efficacy of sulfosulfuron.
Conclusion: The issue of correct sequence for adding adjuvant and herbicide to hard water is important. Lack of knowledge about this issue can lead to not only the lack of weed control but also the imposition of additional costs on the farmer.

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References

1-       Aliverdi A., Ganbari A., Rashed-Mohassel M.H., Nassiri-Mahallati M., and Zand E. 2014a. Overcoming the antagonistic effect from spray carrier minerals on imazethapyr activity. Agronomy Journal 106(5): 1569–1573.
2-       Aliverdi A., Ganbari A., Rashed-Mohassel M.H., Nassiri-MmahalatiI M., and Zand E. 2014b. Overcoming hard water antagonistic to glyphosate or imazethapyr with water conditioners. Notulae Scientia Biologicae 6(2): 244–249.
3-       Aliverdi A., and Hammami H. 2016. The effect of cationic and nonionic surfactants on the efficacy of ALS-inhibitor herbicides against Avena sterilis. Zemdirbyste-Agriculture 103(3): 289–296.
4-       Anonymous. 2019. Sulfosulfuron. In: Pesticide Properties Data Base, University of Hertfordshire. https://sitem.herts.ac.uk/aeru/ppdb/en/Reports/603.htm
5-       Asif M., Tanveer A., Safdar M.E., Ali A., and Ahmad S. 2019. Effect of dicamba and adjuvant combination on Parthenium control, fodder yield and yield components of forage sorghum (Sorghum bicolor). Planta daninha, 37. https://doi.org/10.1590/s010083582019370100036  
6-       Bailey W.A., Poston D.H., Wilson H.P., and Hines T.E. 2002. Glyphosate interactions with manganese. Weed Technology 16(4): 792–799.
7-       Bernards M.L., Thelen K.D., and Penner D. 2005. Glyphosate efficacy is antagonized by manganese. Weed Technology 19(1): 27–34.
8-       Devkota P., Spaunhorst D.J., and Johnson W.G. 2016a. Influence of carrier water pH, hardness, foliar fertilizer, and ammonium sulfate on mesotrione efficacy. Weed Technology 30(3): 617–628.
9-       Devkota P., Whitford F., and Johnson W.G. 2016b. Influence of spray-solution temperature and holding duration on weed control with premixed glyphosate and dicamba formulation. Weed Technology 30(1): 116–122.
10-   Devkota P., and Johnson W.G. 2019. Influence of carrier water pH, foliar fertilizer, and ammonium sulfate on 2,4-D and 2,4-D plus glyphosate efficacy. Weed Technology 33(4): 562–568.
11-   El-Metwally I.M., El-Rokiek K.G., Ahmed S.A., El–Desoki E.R., and Abd-Elsamad E.E.H. 2010. Effect of adding urea or ammonium sulphate on some herbicides efficiency in controlling weeds in onion plants. Journal of American Science 6(11): 536–543.
12-   Fahl G.M., Kreft L., Altenburger R., Faust M., Boedeker W., and Grimme L.H. 1995. pH-dependent sorption, bioconcentration and algal toxicity of sulfonylurea. Aquatic Toxicology 31(2): 175–187.
13-   Green J.M., and Cahill W.R. 2003. Enhancing the biological activity of nicosulfuron with pH adjusters. Weed Technology 17(2): 338–345.
14-   Hoffmann W.C., Bagley W.E., Fritz B.K., Lan Y., and Martin D.E. 2008. Effects of water hardness on spray droplet size under aerial application conditions. Applied Engineering in Agriculture 24(1): 11–14.
15-   Hajmohammadnia Ghalibaf K., Mathiassen S., Kudsk P., and Hosseini S.A. 2013. Effect of soluble ions in water in spray tank on nicosulfuron performance. Iranian Weed Science Congress 5: 608–611. (In Persian with English abstract)
16-   HSDB. 2020. Sulfosulfuron. In: PubChem, CID: 86426. https://pubchem.ncbi.nlm.nih.gov/compound/Sulfosulfuron
17-   Hsiao A.I., Liu S.H., and Quick W.A. 1996. Effect of ammonium sulfate on the phytotoxicity, foliar uptake, and translocation of imazamethabenz in wild oat. Journal of Plant Growth Regulation 15(3): 115–120.
18-   Izadi-Darbandi E., Nessari N., and Azarian F. 2013. Effect of water hardiness on sinosulfuron efficiency for controlling weeds. Iranian Weed Science Congress 5: 714–717. (In Persian with English abstract) 
19-   Izadi-Darbandi E., Aliverdi A., Anabestani M., and Shamsabadi A. 2019. Adjuvants to improve phenmedipham + desmedipham + ethofumesate efficacy against weeds in sugar beet (Beta vulgaris). Planta daninha, 37. https://doi.org/10.1590/s010083582019370100021  
20-   Harker K.N. 1995. Ammonium sulfate effects on the activity of herbicides for selective grass control. Weed Technology 9(2): 260–266.
21-   Liu Z.Q. 2004. Bentazone uptake into plant foliage as influenced by surfactants and carrier pH. Australian Journal of Agricultural Research 55(9): 967–971.
22-   Mahoney K.J., Nurse R.E., and Sikkema P.H. 2014. The effect of hard water, spray solution storage time, and ammonium sulfate on glyphosate efficacy and yield of glyphosate-resistant corn. Canadian Journal of Plant Science 94(8): 1401–1405.
23-   Manuchehri M.R., Dotray P.A., Keeling J.W., Morris T.S., Morgan G.D., and Woodward J.E. 2018. Influence of water quality and ammonium sulfate on glyphosate efficacy. Journal of Experimental Agriculture International 23(5): 1–7.
24-   Maschhoff J.R., Hart S.E., and Baldwin J.L. 2000. Effect of ammonium sulfate on the efficacy, absorption, and translocation of glufosinate. Weed Science 48(1): 2–6.
25-   Molin W.T., and Hirase K. 2004. Comparison of commercial glyphosate formulations for control of prickly side, purple nutsedge, and sicklepod. Weed Biology and Management 4(3): 136–141.
26-   Moridi A., Kerachian R., and Zokaei M. 2017. Assessment of Iran’s Water Resources Quality (2004-2014). Iran-Water Resources Research 12(4): 23–35. (In Persian with English abstract)
27-   Nalewaja J.D., Woznica Z., and Matysiak R. 1991. 2,4-D Amine antagonism by salts. Weed Technology 5(4): 873–880.
28-   Nalewaja J.D., and Matysiak R. 1991. Salt antagonism of glyphosate. Weed Science 39(4): 622–628.
29-   Nalewaja J.D., Matysiak R., and Szelenzniak E. 1994. Sethoxydim response to spray carrier chemical properties and environment. Weed Technology 8(3): 591–597.
30-   Nandula V.K., Poston D.H., Reddy K.N., and Koger C.H. 2007. Formulation and adjuvant effects on uptake and translocation of clethodim in bermudagrass (Cynodon dactylon). Weed science, 55(1):6–11.
31-   Nosratti I., Alizade H., and Mashhadi H.R. 2012. Effect of some adjuvants in reducing antagonistim of spray carrier water cations to 2,4-D + MCPA efficacy on licorice (Glycyrrhiza glabra L.). Annals of Biological Research, 3(1):2631–2635.
32-   Nurse R.E., Hamill A.S., Kells J.J., and Sikkema P.H. 2008. Annual weed control may be improved when AMS is added to below-label glyphosate doses in glyphosate-tolerant maize (Zea mays L.). Crop Protection 27: 452–8.
33-   Palma G., Demanet R., Jorquera M., Mora M.L., Briceño G., and Violante A. 2015. Effect of pH on sorption kinetic process of acidic herbicides in a volcanic soil. Journal of Soil Science and Plant Nutrient 15(3). http://dx.doi.org/10.4067/S0718-95162015005000023  
34-   Patton A.J., Weisenberger D.V., and Johnson W.G. 2016. Divalent cations in spray water influence 2,4-D efficacy on dandelion (Taraxacum officinale) and broadleaf plantain (Plantago major).Weed Technology 30(2): 431–440.
35-   Penner D. 2000. Activator adjuvants. Weed Technology 14(4): 785–791.
36-   Ritz C., Baty F., Streibig J.C., and Gerhard D. 2015. Dose-response analysis using R. PLoS One 10(12): e0146021.
37-   Ramos M.F.T., Santos R.T.S., Griesang F., Almeida D.P., and Ferreira M.C. 2019. Does the sequence of addition of herbicide and adjuvants to the spray solution influence sicklepod control? Arquivos do Instituto Biológico 86: 1-7.
38-   Ramsdale B.K., Messersmith C.G. and Nalewaja J.D. 2003. Spray volume, formulation, ammonium sulfate, and nozzle effects on glyphosate efficacy. Weed Technology 17: 589–598.
39-   Roskamp J.M., Turco R.F., Bischoff M., and  Johnson W.G. 2013a. The influence of carrier water pH and hardness on saflufenacil efficacy and solubility. Weed Technology 27(3): 527–533.
40-   Roskamp J.M., Chahal G.S., and Johnson W.G. 2013b. The effect of cations and ammonium sulfate on the efficacy of dicamba and 2,4-D. Weed Technology 27(1): 72–77.
41-   Simarmata M., Taufik M., and Peranginangin Z.Z. 2017. Efficacy of paraquat and glyphosate applied in water solvents from different sources to control weeds in oil palm plantation. ARPN Journal of Agricultural and Biological Science 12(2): 58–64.
42-   Smith A.M., and Born, W.H.V. 1992. Ammonium sulfate increases efficacy of sethoxydim through increased absorption and translocation. Weed Science 40(3): 351–358. 
43-   Soltani N., Nurse R., Robinson D., and Sikkema P. 2011. Effect of ammonium sulfate and water hardness on glyphosate and glufosinate activity in corn. Canadian Journal of Plant Science 91(6): 1053–1059.
44-   Sterling T.M. 1994. Mechanisms of Herbicide absorption across plant membranes and accumulation in plant cells. Weed Science 42(2): 263–276.
45-   Thelen K.D., Jackson E.P., and Penner D. 1995. The basis for the hard-water antagonism of glyphosate activity. Weed Science 43(4): 541–548.
46-   Travlos I., Cheimona N., and Bilalis D. 2017. Glyphosate efficacy of different salt formulations and adjuvant additives on various weeds. Agronomy 7(3): 60–69.
47-   Wanamarta G., Penner D., and Kells J.J. 1989. The basis of bentazon antagonism on sethoxydim absorption and activity. Weed Science 37(3): 400–404.
48-   Zollinger R.K, Howatt K., Bernards M.L., and Young B.G. 2016. Ammonium sulfate and dipotassium phosphate as water conditioning adjuvants. In: Pesticide Formulation and Delivery Systems (ed. Goss G.). 42–51.
49-   Zollinger R.K., Nalewaja J.D., Peterson D.E., and Young B.G. 2010. Effect of hard water and ammonium on weak acid herbicide activity. Journal of ASTM International 7(6): 1–10.
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Journal of Iranian Plant Protection Research
Volume 34, Issue 3 - Serial Number 49
September 2020
Pages 373-383

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