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Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology
Official Journal of the Societa Botanica Italiana
Volume 148, 2014 - Issue 3
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Original Article

Effect of environmental conditions on decomposition in eight woody species of a dry tropical forest

Santosh Kumar PandeyBanaras Hindu University, Botany, Varanasi221005, India
,
Hema SinghDepartment of Botany, Banaras Hindu University, Botany, EAL, Varanasi221005, India
&
J. S. SinghBanaras Hindu University, Botany, Varanasi221005, India
Pages 410-418 | Published online: 01 Mar 2013

References

  • AbivenS, RecousS, ReyesV, OliverR. 2005. Mineralisation of C and N from root, stem and leaf residues in soil and role of their biochemical quality. Biol Fert Soil42: 119–128.
  • AertsR. 1997. Climate, leaf litter chemistry and leaf litter decomposition in terrestrial ecosystems: a triangular relationship. Oikos79: 439–449.
  • AertsR, De CaluweH. 1997. Nutritional and plant-mediated controls on leaf litter decomposition of Carex species. Ecology78: 244–260.
  • AndersonJM, IngramJSI. 1993. Tropical soil biology and fertility: a handbook of methods. Wallingford: CAB International. 221 p.
  • ArunachalamA, MaithaniK, PandeyHN, TripathiRS. 1998. Leaf litter decomposition and nutrient mineralization patterns in regrowing stands of a humid subtropical forest after tree cutting. For Ecol Manage109: 151–161.
  • ArunachalamK, SinghND, ArunachalamA. 2003. Decomposition of leguminous crop residues in jhum cultivation system in northeast India. J Plant Nutr Soil Sci166: 731–736.
  • AustinAT, VitousekPM. 2000. Precipitation, decomposition and litter decomposability of Metrosideros polymorpha in active forests on Hawaii. J Ecol88: 129–138.
  • AustinAT, VivancoVL. 2006. Plant litter decomposition in a semi-arid ecosystem controlled by photo degradation. Nature422: 555–558.
  • BergB, LaskowskiR. 2006. Litter decomposition: A guide to carbon and nutrient turnover. Advances in ecological research. Amsterdam: Elsevier. 38 p
  • BergB, McClaughertyC. 2008. Plant litter: Decomposition, humus formation and carbon sequestration. 2nd ed.Berlin, Heidelberg: Springer-Verlag. 341p.
  • BergB, StaffH. 1980. Decomposition rate and chemical changes in Scot pine needle litter. 2. Influence of chemical composition. Ecol Bull32: 363–372.
  • BergB, StaafH. 1981. Leaching, accumulation and release of nitrogen in decomposing forest litter. Ecol Bull33: 163–178.
  • BocockKL. 1963. Changes in the amount of nitrogen in decomposing leaf litter of sessile oak (Quercus Petraea). J Ecol51: 555–566.
  • ClarkDA, PiperSC, KeelingCD, ClarkDB. 2003. Tropical rain forest tree growth and atmospheric carbon dynamics linked to interannual temperature variation during 1984–2000. Proc Natl Acad Sci USA100: 5852–5857.
  • CornwellWK, CornelissenJHC, AmatangeloK, DorrepaalE, EvinerVT, GodoyO, et al. 2008. Plant species traits are the predominant control on litter decomposition rates within biomes worldwide. Ecol Lett11: 1065–1071.
  • CoûteauxMM, BottnerP, BergB. 1995. Litter decomposition, climate and litter quality. Trends Ecol Evol10: 63–66.
  • CriquetS, FerreE, FarnetAM, Le PetitJ. 2004. Annual dynamics of phosphatase activities in an evergreen oak litter: Influence of biotic and abiotic factors. Soil Biol Biochem36: 1111–1118.
  • DasselarAVV, LatingaEA. 1995. Modelling the carbon cycle of grassland in the Netherlands under various management strategies and environmental conditions. J Agric Sci43: 183–194.
  • EdmondsRL. 1990. Litter decomposition and nutrient release in Douglas fir, red alder, western hemlock and Pacific silver fir ecosystems in western Washington. Can J For Res10: 327–337.
  • EzcurraE, BecerraJ. 1987. Experimental decomposition of litter from the Tamaulipan Cloud Forest: A comparison of four simple models. Biotropica19: 290–296.
  • FeeleyKJ, Joseph WrightS, Nur SupardiMN, KassimAR, DaviesSJ. 2007. Decelerating growth in tropical forest trees. Ecol Lett10: 461–469.
  • FinziAC, Van BreemanN, CanhamCD. 1998. Canopy treesoil interactions within temperate forests: Species effects on soil carbon and nitrogen. Ecol Appl8: 440–446.
  • FiorettoA, NardoC, Di PapaS, FuggiA. 2005. Lignin and cellulose degradation and nitrogen dynamics during decomposition of three leaf litter species in a Mediterranean ecosystem. Soil Biol Biochem37: 1083–1091.
  • FogK. 1988. The effect of added nitrogen on the rate of decomposition of organic matter. Bio Rev63: 433–462.
  • GholzHL, WedinDA, SmithermanSM, HarmonME, PartonWJ. 2000. Long-term dynamics of pine and hardwood litter in contrasting environments: Toward a global model of decomposition. Glob Change Biol6: 751–765.
  • GilbertO, BocockKL. 1960. Changes in the leaf litter when placed on the surface of soils with contrasting humus types. II. Changes in the nitrogen content of oak and ash litter. J Soil Sci11: 10–19.
  • GoszJR, LikensGE, BormannFH. 1973. Nutrient release from decomposing leaf and branch litter in the Hubbard Brook Forest, New Hampshire. Ecol Monogr43: 173–191.
  • HättenschwilerS, TiunovAV, ScheuS. 2005. Biodiversity and litter decomposition in terrestrial ecosystems. Annu Rev Ecol Evol Syst36: 191–218.
  • HeneghanL, ColemanDC, ZouX, Jr, CrossleyDA, HainesBL. 1998. Soil microarthropod community structure and litter decomposition dynamics: A study of tropical and temperate sites. Appl Soil Ecol9: 33–38.
  • HobbieSE. 1992. Effects of plant-species on nutrient cycling. Trends Ecol Evol7: 336–339.
  • HowardPJ, HowardDM. 1974. Microbial decomposition of tree and shrub litter. I. Weight loss and chemical composition of decomposing litter. Oikos25: 341–352.
  • JamaludheenV, KumarBM. 1999. Litter of multipurpose trees in Kerala, India: Variations in the amount, quality, decay rates and release of nutrients. For Ecol Manage115: 1–11.
  • JhaCS, SinghJS. 1990. Composition and dynamics of dry tropical forest in relation to soil texture. J Veg Sci1: 609–614.
  • KameiJ, PandeyHN, BarikSK. 2009. Tree species distribution and its impact on soil properties, and nitrogen and phosphorus mineralization in a humid subtropical forest ecosystem of northeastern India. Can J For Res39(1): 36–47.
  • KempPR, ReynoldsJF, VirginiaR, WhitfordWJ. 2003. Decomposition of leaf and root litter of Chihuahuan desert shrubs: Effect of three years of summer drought. J Arid Environ53: 21–39.
  • LavelleP, BlanchartE, MartinA, SpainA, ToutainF, BaroisI, et al. 1993. A hierarchical model for decomposition in terrestrial ecosystems: Application to soils of the humid tropicas. Biotropica25: 130–150.
  • LiskiJ, NissinenA, ErhardM, TaskinenO. 2003. Climatic effect on litter decomposition from arctic tundra to tropical rainforest. Glob Change Biol9: 575–584.
  • MaithaniK, TripathiRS, ArunachalamA, PandeyHN. 1996. Seasonal dynamics of microbial biomass C, N and P during regrowth of a disturbed subtropical humid forest in northeast India. Appl Soil Ecol4: 31–37.
  • MeentemeyerV. 1978. Macroclimate and lignin control of litter decomposition rates. Ecology59: 465–472.
  • MeentemeyerV. 1984. The geography of organic decomposition rates. Ann Assoc Am Geogr74: 551–560.
  • MelilloJM, AberJB, MuratoreJF. 1982. Nitrogen and lignin control of hardwood leaf litter decomposition dynamics. Ecology63: 621–626.
  • MooreTR, TrofymowJA, PrescottCE, FylesJ, TitusBD. 2006. Patterns of carbon, nitrogen and phosphorus dynamics in decomposing foliar litter in Canadian forests. Ecosystems9: 46–62.
  • MoorheadDL, CurrieWS, RasttetterEB, PartonWJ, HarmonME. 1999. Climate and litter quality controls on decomposition: An analysis of modeling approaches. Glob Biogeochem Cycles13: 575–589.
  • MorettoAS, DistelRA, DidoneNG. 2001. Decomposition and nutrient dynamic of leaf litter and roots from palatable and unpalatable grasses in semi-arid grassland. App Soil Ecol18: 31–37.
  • MoroMJ, DomingoF. 2000. Litter decomposition in four woody species in a Mediterranean climate: Weight loss, N and P dynamics. Ann Bot86: 1065–1071.
  • MyersRJK, PalmCA, CuevasE, GunatillekeIUN, BrossardM. 1994. The synchronization of nutrient mineralization and plantnutrient demand. In: WoomerPL, SwiftMJ, editors. The biological management of tropical soils fertility. Chichester: A Wiley-Sayce Publication. pp. 81–116.
  • MudgalV, KhannaKK, HajraPK, editors. 1997. ‘Flora of Madhya Pradesh’. Calcutta: Botanical Survey of India.
  • OkekeAI, OmalikoCPE. 1992. Leaf litter decomposition and carbondioxide evolution of some agroforestry fallow species in southern Nigeria. For Ecol Manage50: 103–116.
  • OlsonJS. 1963. Energy storage and the balance of producers and decomposers in ecological systems. Ecology44: 322–331.
  • PandeyCB, SinghJS. 1992. Rainfall and grazing effects on net primary productivity in a tropical savanna, India. Ecology73: 2007–2021.
  • Perez-HarguindegyN, DiazS, CornelissenJHC, VendraminiF, CabidoM, CastellanosA. 2000. Chemistry and toughness predict leaf litter decomposition rates over awide spectrum of functional types and taxa in central Argentina. Plant Soil218: 21–30.
  • PersianiAM, TosiS, Del frateG, GranitoVM, GuglielminettiM, LunghiniD, et al. 2011. High spots for diversity of soil and litter micro fungi in Italy. Plant Biosyst145: 969–977.
  • PrescottCE. 1995. Does nitrogen availability control rates of litter decomposition in forest. Plant Soil168–169: 83–88.
  • RichardsJH, CaldwellMM. 1987. Hydraulic lift: Substantial nocturnal water transport between soil layers by Artemesia tridentata roots. Oecologia73: 486–489.
  • SagarR, SinghJS. 2004. Local plant species depletion in a tropical dry deciduous forest of northern India. Environ Conserv31: 55–62.
  • SaittaA, BernicchiaA, GorjóNSP, AltobelliE, GranitoVM, LosiC, et al. 2011. Biodiversity of wood-decay fungi in Italy. Plant Biosyst145: 958–968.
  • SayerEJ. 2006. Using experimental manipulation to assess the roles of leaf litter in the functioning of forest ecosystems. Biol Rev81: 1–31.
  • SchimelDS. 1995. Terrestrial ecosystems and the carbon cycle. Glob Change Biol1: 77–91.
  • SeastedtTR, CrossleyDA, Jr, MeentemeyerV, WaideJB. 1983. A two-year study of leaf litter decomposition as related to macroclimatic factors and microarthropod abundance in the southern Appalachians. Holarctic Ecol6: 11–16.
  • SilverWL, MiyaRK. 2001. Global patterns in root decomposition: Comparisons of climate and litter quality. Oecologia129: 407–419.
  • SinghJS, RaghubanshiAS, SinghRS, SrivastavaSC. 1989. Microbial biomass acts as a source of plant nutrient in dry tropical forest and savanna. Nature338: 499–500.
  • SinghKP, SinghPK, TripathiSK. 1999. Litterfall, litter decomposition and nutrient release patterns in four native tree species raised on coal mine spoil at Singrauli, India. Biol Fertil Soils29: 371–378.
  • SongweNC, OkaliDUU, FasehunFE. 1995. Litter decomposition and nutrient release in a tropical rainforest, Southern Bakundu Forest Reserve, Cameroon. J Trop Ecol11: 333–350.
  • StephanHH, SylvainC, SandraB, IraTH. 2011. Leaf traits and decomposition in tropical rainforests: Revisiting some commonly held views and towards a new hypothesis. New Phytol189: 950–965.
  • SwiftMJ, HealOW, AndersonJM. 1979. Decomposition in terrestrial ecosystems. Oxford, UK: Blackwell Scientific Publications.
  • TannerEVJ. 1981. The decomposition of leaf litter in Jamaican montane rain forests. J Ecol69: 263–273.
  • TaylorB, ParkinsonB, ParsonsWJ. 1989. Nitrogen and lignin control of hardwood leaf decomposition dynamics. Ecology63: 621–626.
  • WeiderWR, ClevelandCC, TownsendAR. 2009. Control over litter decomposition in wet tropical forests. Ecology90: 3333–3341.
  • WoodJM. 1974. Biological cycles for toxic elements in the environment. Science183(4129): 1049–1052.
  • Xuluc-TolosaFJ, VesterHFM, Ramírez-MarcialN, Castella-nos-AlboresJ, LawrenceD. 2003. Leaf litter decomposition of tree species in three successional phases of tropical dry secondary forest in Campeche, Mexico. For Ecol Manage174: 401–412.

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