An approach to develop a model for describing the influence of fluoride-contaminated irrigation water on physiological responses in poplar (Populus deltoides clone S7C15)

• Autorzy: Singh M. , Verma K. K. , Verma C. L.
• Języki publikacji: EN

Abstrakty

EN

The physiological responses pertaining to influence of fluoride-contaminated irrigation water (100–500 ppm) on 6-week-old seedlings of Populus deltoides, a fast growing tree crop in northern India are investigated. It is observed that the various fluoride concentrations in irrigation water are directly proportional to the changes in the physiological responses. The reduction in stomatal conductance is found higher (~57 %) in relation to photosynthetic CO2 assimilation (~38 %) and chlorophyll fluorescence yield (~12 %) in fluoride-contaminated (100 ppm) irrigation. Similarly, impaired values for g s (75 %), P N (55 %), and F v/F m (18 %) are also triggered by higher level of fluoride-contaminated (200 ppm) irrigation. Further higher dose of fluoride (500 ppm) contaminated irrigation water could severely minimize the physiological responses viz., g s, P N and F v/F m ca. 86, 65, and 36 %. A mathematical model developed based on the changes in rates of stomatal conductance (Δg s/ΔC), photosynthetic CO2 assimilation (ΔP N/ΔC) and chlorophyll fluorescence yield (ΔF v/F m/ΔC), which has shown straight line relationship, and was verified with average deviations from 1.86 to 5.87 %. The calculated physiological responses influenced by fluoride irrigation on poplar seedlings are also verified with developed model. The governing equation suggests the existence of functional relationship between physiological responses and applied fluoride treatment doses. Hence, the cultivation of poplar crop may be designed precisely in fluoride affected areas to boost and sustain agro-socio economy.

• Wydawca: -
• Czasopismo: Acta Physiologiae Plantarum
• Rocznik: 2013
• Tom: 35
• Numer: 12
• Opis fizyczny: p.3357-3364,fig.,ref.

Twórcy

autor

Singh M.

• Department of Botany, University of Lucknow, Lucknow 226 007, Uttar Pradesh, India

autor

Verma K. K.

• Department of Botany, University of Lucknow, Lucknow 226 007, Uttar Pradesh, India

autor

Verma C. L.

• Central Soil Salinity Research Institute, Regional Research Station (CSSRI-RRS), Lucknow 226 005, Uttar Pradesh, India 123

Bibliografia

• Abdallah FB, Elloumi N, Mezghani I, Garrec JP, Sfax MB, Tunisia (2006) Fluoride pollution of Jerbi grape leaves and the distribution of F, Ca, Mg and P in them. Res Rep Fluoride 39:43–48
• Apambire WB, Boyle DR, Michel FA (1997) Geochemistry, genesis and health implication of fluoriferous groundwater in the upper regions of Ghana. Environ Geol 33:13–24
• Ayoob S, Gupta AK (2006) Fluoride in drinking water: a review on the status and stress effects. Criti RevEnviron Sci Tech 36:433–487
• Chakrabarti S, Patra PK, Mondal B (2012) Uptake of fluoride by two paddy (Oryza sativa L.) varieties treated with fluoride- contaminated water. Paddy Water Environ. doi:10.1007/s10333-012-0342-2
• Datta JK, Maitra A, Mondal NK, Banerjee A (2012) Studies on the impact of fluoride toxicity on germination and seedling growth of gram seed (Cicer arietinum L. cv. Anuradha). J Stress Physiol Biochem 8:194–202
• Dissanayake CB, Chandrajith R (2007) Medical geology in tropical countries with special reference to Sri Lanka. Environ Geochem Health 29:155–162
• Elloumi N, Abdallah FB, Mezghani I, Rhouma A, Boukhrisb M (2005) Effect of fluoride on almond seedlings in culture solution. Fluoride 38:193–198
• Facanha AR, De Meis L (1995) Inhibition of maize root H+- ATPase by fluoride and fluoro aluminate complexes. Plant Physiol 108:241–246
• Farooqi A, Masuda H, Siddiqui R, Naseem M (2008) Sources of arsenic and fluoride in highly contaminated soils causing groundwater contamination in Punjab, Pakistan. Arch Environ Contam Toxicol 21:233
• Fawell J, Bailey K, Chilton J, Dahi E, Fewtrell F, Magara Y (2006) Fluoride in drinking water. World Health Organization, London
• Garrec JP, Plebin R, Audin (1981) Effects du fluor sur les teneurs en sucres et en acids amines d’aiguilles de sapin abies alba mill. Environ Poll 26:281–285
• Gautam R, Bhardwaj N (2010) Bioaccumulation of fluoride in different plant part of Hordium vulgare (Barley) var. RD-2683 from irrigation water. Fluoride 43:57–60
• Gautam R, Bhardwaj N, Saini Y (2010) Fluoride accumulation by vegetables and crops grown in Nawa Tehsil of Nagaur District (Rajasthan, India). J Phytol 2:80–85
• Gupta S, Banerjee S, Mondal S (2009) Fluoride accumulation in paddy (Oryza sativa) irrigated with fluoride contaminated groundwater in an endemic Area of Birbhum district, West Bengal. Fluoride 42:224–227
• Junior AMD, Oliva MA, Martinez CA, Cambraia J (2007) Effects of fluoride emissions on two tropical grasses: Chloris gayana and Panicum maximum cv. Coloniao. Ecotoxicol Environ Saf 67:247–253
• Kamaluddin M, Zwiazek JJ (2003) Fluoride inhibits root water transport and affects leaf expansion and gas exchange in aspen (Populus tremuloides) seedlings. Physiol Plant 117:368–375
• Karolewski P, Siepak J, Gramowska H (2000) Response of Scots pine (Pinus sylvestris), Norway spruce (Picea Abies) and Douglas fir (Pseudotsuga menziesii) needles to environment pollution with fluorine compounds. Dendrobiology 45:41–46
• Kumar KA, Rao AVB (2008) Physiological responses to fluoride in two cultivars of Mulberry. World J Agric Sci 4:463–466
• Kumar AK, Varaprasad P, Rao AVB (2009) Effect of fluoride on catalase, guaiacol peroxidase and ascorbate oxidase. Res J Earth Sci 1:69–73
• Manoharan V, Loganathan P, Tillman RW, Parfitt RL (2007) Interactive effects of soil acidity and fluoride on soil solution aluminium chemistry and barley (Hordeum vulgare L.) root growth. Environ Poll 145:778–786
• Miller GW (1993) The effect of fluoride on higher plants with special emphasis on early physiological and biochemical disorders. Fluoride 26:3–22
• Pant S, Pant P, Bhiravamurthy PV (2008) Effects of fluoride on early root and shoot growth of typical crop plants of India. Fluoride 41:57–60
• Prachi V (2011) Investigation of fluoride phytotoxicity in Pisum sativum. Ph.D. Thesis, University of Lucknow, Lucknow
• Qingtao L, Lu C, Zhang J, Kuang T (2002) Photosynthesis and chlorophyll a fluorescence during flag leaf senescence of field grown wheat plants. J Plant Physiol 159:1173–1178
• Raju NJ, Dey S, Das K (2009) Fluoride contamination in ground waters of Sonbhadra District, Uttar Pradesh, India. Current Sci 96:979–985
• Rakowski KJ (1997) Hydrogen fluoride effects on plasma membrane composition and ATPase activity in needles of white pine (Pinus strobus) seedlings pre-treated with 12 h photoperiod. Tree Struct Funct 11:248–253
• Rubio-Casal AE, Castillo JM, Luque CJ, Figueroa ME (2003) Influence of salinity on germination and seeds viability of two primary colonizers of Mediterranean salt pans. J Arid Environ 53:145–154
• Sabal D, Khan TI, Saxena R (2006) Effect of sodium fluoride on cluster bean (Cyamopsis tetragonoloba) seed germination and seedling growth. Fluoride 39:228–230
• Shitumbanuma V, Tembo F, Tembo JM, Chilala S, Van Ranst E (2007) Dental fluorosis associated with drinking water from hot springs in Choma district in southern province, Zambia. Environ Geochem Health 29:51–58
• Shortt HE, McRobert GR, Barnard TW, Mannadinayar AS (1937) Endemic fluorosis in Madras Presidency. Ind J Med Res 25:553–561
• Singh M, Verma KK (2013) Influence of fluoride-contaminated irrigation water on physiological responses of poplar seedlings (Populus deltoides L. clone-S7C15). Res Rep Fluoride 46(2):83–89
• Singh M, Chaturvedi R, Sane PV (1996) Diurnal and seasonal photosynthetic characteristics of Populus deltoides marsh leaves. Photosynthatica 32:11–21
• Singh M, Jain M, Pant RC (1999) Clonal variability in photosynthetic and growth characteristics of Populus deltoides under saline irrigation. Photosynthetica 36:605–609
• Susheela AK (1999) Fluorosis management program in India. Current Sci 77:1250–1256
• Walna B, Kurzyca I, Siepak J (2007) Variations in the fluoride level in precipitation in a region of human impact. Water Air Soil Poll Focus 7:33–40
• Weinstein LH, Alscher-Herman R (1982) Physiological responses of plant to fluorine. In Effects of Gaseous Pollutants in Agriculture and Horticulture. Eds. M H Unsworth and D P Ormrod, Butterworths, London, 139–167
• Weinstein LH, Davison A (2004) Fluorides in the environmental. CAB, Wallingford
• WHO (1984) Fluorine and Fluoride, Geneva, World Health Organization, (Environmental Health Criteria 36):136
• Yang L, Peterson PJ, Williams WP, Wang W, Ribang L, Tan J (2003) Developing environmental health indicator as policy tools for endemic fluorosis management in the peoples republic of China. Environ Geochem Health 25:281–295
• Zhang L, Li Q, Ma L, Ruan J (2012) Characterization of fluoride uptake by roots of tea plants (Camellia sinensis (L.) O. Kuntze). Plant Soil. doi:10.1007/s11104-012-1466-1472
• Zhao Y, Li X, Liu L, Chan F (2008) Fluoride removal by Fe(III)-loaded ligand exchange cotton cellulose adsorbent from drinking water. Carbohydr Polym 72:144–150

Uwagi

rekord w opracowaniu