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2012 | 34 | 6 |

Tytuł artykułu

Pseudomonas putida NBRIC19 provides protection to neighboring plant diversity from invasive weed Parthenium hysterophorus L. by altering soil microbial community

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Parthenium hysterophorus L. (Parthenium) is an invasive weed species which is spreading worldwide affecting natural ecological systems, biodiversity, crop production and human health. The present study was conducted to evaluate the potential of plant growth promoting Pseudomonas putida NBRIC19 in detoxifying the phytotoxic effect of Parthenium. Significant increase in C/N ratio, macronutrients, and micronutrients was observed in P. putida NBRIC19-treated soil. P. putida NBRIC19 treatment of the soil provided protection to plant communities in Parthenium invaded area, as the species diversity had increased in the treatment as compared to non-bacterized soil. P. putida NBRIC19 treatment besides Parthenium, also succeeded in controlling other weed species like Commelina benghalensis and Cynodon dactylon. In addition to this, the impact of Parthenium was also studied on functional microbial diversity based on carbon source utilization pattern. It was observed that P. putida NBRIC19 treatment of soil had shifted the microflora in such a manner that utilization of toxic allelochemicals increased to lessen their phytotoxic effect. Taken together, these results suggest that soil treatment with P. putida NBRIC19 may be used as a promising biological control measure for controlling the phytotoxic effect of Parthenium and in protecting ecosystem integrity of neighboring plants in Parthenium invaded areas.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

34

Numer

6

Opis fizyczny

p.2187-2195,fig.,ref.

Twórcy

autor
  • CSIR-National Botanical Research Institute, Rana Pratap Marg, 226001 Lucknow, India
  • CSIR-National Botanical Research Institute, Rana Pratap Marg, 226001 Lucknow, India
autor
  • CSIR-National Botanical Research Institute, Rana Pratap Marg, 226001 Lucknow, India
  • Department of Botany, Banaras Hindu University, 221005 Varanasi, India
  • CSIR-National Botanical Research Institute, Rana Pratap Marg, 226001 Lucknow, India

Bibliografia

  • Alpert P, Kolb A (2003) Effects of nitrogen and salinity on growth and competition between a native grass and an invasive congener. Biol Invasions 5:229–238
  • Anderson JM, Ingram JSI (1993) Tropical soil biology and fertility: a handbook of methods, 2nd edn. CAB International, Wallingford
  • Bais HP, Weir TL, Perry LG, Gilroy S, Vivanco JM (2006) The role of root exudates in rhizosphere interactions with plants and other organisms. Annu Rev Plant Biol 57:233–266
  • Batish DR, Singh HP, Kohli RK, Arora V, Kumar S (2004) Management of noxious weeds requires community participation. Weed Technol 18:1445–1448
  • Blum U, Worsham AD, King LD, Gerig TM (1994) Use of water and EDTA extractions to estimate available (free and reversibly bound) phenolic acids in cecil soils. J Chem Ecol 20:341–359
  • Burton GW, Hanna W (1985) Bermudagrass. In: Heath ME, Barnes RF, Metcalfe DS (eds) Forages: the science of grassland agriculture. Iowa State University Press, Ames, p 643
  • Burton MG, York AC, Spears JF, Rufty TW (2003) Tropical spiderwort colonizes North Carolina: ecology and containment of a noxious weed. Proc South Weed Sci Soc 56:183
  • Callaway RM, Aschehoug ET (2000) Invasive plant versus their new and old neighbors: a mechanism for exotic invasion. Science 290:521–523
  • ChandanBK, SharmaAK,AnandKK(1991) Boerhaavia diffusa: a study of its hepatoprotective activity. J Ethnopharmacol 31:299–307
  • Cheng HH (1995) Characterization of the mechanisms of allelopathy: modeling and experimental approaches. In: Inderjit, Dakshini KMM, Einhellig FA (eds) Allelopathy: organisms, processes and applications. American Chemical Society,Washington, pp 132–141
  • Curtis JT (1959) The vegetation of Wisconsin: an ordination of plant communities. University of Wisconsin Press, Madison 657
  • De La Fuente JR, Uriburu ML, Burton G, Sosa VE (2000) Sesquiterpene lactone variability in Parthenium hysterophorus L. Phytochemistry 55:769–772
  • Dhileepan K, Setter SD, McFadyen RE (2000) Response of the weed Parthenium hysterophorus (asteraceae) to defoliation by the introduced biocontrol agent Zygogramma bicolorata (Coleoptera: chrysomelidae). Biol Control 19:9–16
  • Evans HC (1997) Parthenium hysterophorus: a review of its weed status and the possibilities for biological control. Biocontrol News Inform 18:389–398
  • Folman LB, Postma J, Vanveen JA (2001) Ecophysiological characterization of rhizosphere bacterial communities at different root locations and plant developmental stages of cucumber grown on Rockwool. Microb Ecol 42:586–597
  • Garland JL (1996) Analytical approaches to the characterization of samples of microbial communities using patterns of potential C source utilization. Soil Biol Biochem 28:213–221
  • Gerhardson B (2002) Biological substitutes for pesticides. Trends Biotechnol 20:338–343
  • Hazekamp A, Young HC, Robert V (2004) Quantitative analysis of Cannabinoids from Cannabis sativa using 1H-NMR. Chem Pharm Bull 52:718–721
  • Herz W, Watanabe H, Miyazaki M, Kishida Y (1962) The structures of parthenin and ambrosin. J Am Chem Soc 84:2601–2610
  • Inderjit (2005) Soil microorganisms: an important determinant of allelopathic activity. Plant Soil 274:227–236
  • Kaur H, Kaur R, Kaur S, Baldwin IT, Inderjit (2009) Taking ecological function seriously: soil microbial communities can obviate allelopathic effects of released metabolites. PLoS ONE 4: e4700
  • Kohli RK, Batish DR, Singh HP, Dogra KS (2006) Status, invasiveness and environmental threats of three tropical American invasive weeds (Parthenium hysterophorus L., Ageratum conyzoides L., Lantana camara L.) in India. Biol Invasions 8:1501–1510
  • Lowe PN, Lauenroth WK, Burke IC (2002) Effects of nitrogen availability on the growth of native grasses exotic weeds. J Range Manag 55:94–98
  • McCune B, Mefford MJ (2005) Multivariate analysis on the PC-ORD system. Version 5 (MjM Software, Gleneden Beach, Ore)
  • Mcfadyen RE (1992) Biological control against Parthenium weed in Australia. Crop Prot 11:400–407
  • Mishra S, Nautiyal CS (2012) Reducing the allelopathic effect of Parthenium hysterophorous L. on wheat (Triticum aestivum L.) by Pseudomonas putida. Plant Growth Regul 66:155–165
  • Mishra S, Mishra A, Chauhan PS, Mishra SK, Kumari M, Niranjan A, Nautiyal CS (2012) Pseudomonas putida NBRIC19 dihydrolipoamide succinyltransferase (SucB) gene controls degradation of toxic allelochemicals produced by Parthenium hysterophorus. J Appl Microbiol 112:793–808
  • Nautiyal CS (1997) A method for selection and characterization of rhizosphere-competent bacteria of chickpea. Curr Microbiol 34:12–17
  • Nautiyal CS (2009) Self-purificatory Ganga water facilitates death of pathogenic Escherichia coli O157:H7. Curr Microbiol 58:25–29
  • Nautiyal CS, Dion P (1990) Characterization of opine-utilizing microflora associated with samples of soil and plants. Appl Environ Microbiol 56:2215–2221
  • Nautiyal CS, Chauhan PS, DasGupta SM, Seem K, Varma A, Staddon WJ (2010) Tripartite interactions among Paenibacillus lentimorbus NRRL B-30488, Piriformospora indica DSM 11827, and Cicer arietinum L. World J Microbiol Biotechnol 26:1393–1399
  • Page AL, Miller RH, Keeney DR (1982) Methods of soil analysis, Part 2, Chemical and microbiological properties. SSSA, Madison, p 1159
  • Rinaudo V, Bàrberi P, Giovannetti M, van der Heijden MGA (2010) Mycorrhizal fungi suppress aggressive agricultural weeds. Plant Soil 333:7–20
  • Rodriguez E, Carman NJ, Chavez P, Mabry TJ (1972) Quercetagetin 3, 3'-dimethyl ether, a new flavonoid from Parthenium tomentosum. Phytochemistry 11:1507–1508
  • Tabatabai MA (1996) Sulfur. In: Sparks DL (ed) Methods of soil analysis, Part 3, chemical methods. Soil Science Society of America and American Society of Agronomy, Madison, Wisconsin, USA, pp 921–960
  • Tahiliani P, Kar A (2000) Achyranthes aspera elevates thyroid hormone levels and decreases hepatic lipid peroxidation in male rats. J Ethnopharmacol 71:527–532
  • Tessier A, Campbell PGC, Bisson M (1979) Sequential of extraction procedure for the speciation of particulate trace metals. Anal Chem 51:844–851
  • Zegeye H, Teketay D, Kelbessa E (2006) Diversity, regeneration status and socio-economic importance of the vegetation in the islands of Lake Ziway, south-central Ethiopia. Flora 201:483–498
  • Zhang ZY, Pan LP, Li HH (2010) Isolation, identification and characterization of soil microbes which degrade phenolic allelochemicals. J Appl Microbiol 108:1839–1849

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Bibliografia

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