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International Journal of Pest Management Volume 56, 2010 - Issue 2
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Articles

Plant allocation to defensive compounds of transgenic Bt cotton in response to infestation by cotton bollworm under conditions of elevated CO2

Gang Wu National Key Laboratory of Integrated Management of Pest Insects and Rodents, Institute of Zoology, Chinese Academy of Sciences, Beijing, 100080, P.R. China; Department of Biology, College of Science, Wuhan University of Technology, Hubei, 430070, P.R. China
,
Fa Jun Chen Department of Entomology, Nanjing Agricultural University, Nanjing, 210095, P.R. China
,
Neng-Wen Xiao Chinese Research Academy of Environmental Sciences, No. 8 Dayangfang Anwai, Chaoyang, Beijing, 100012, P.R. China
&
Feng Ge National Key Laboratory of Integrated Management of Pest Insects and Rodents, Institute of Zoology, Chinese Academy of Sciences, Beijing, 100080, P.R. ChinaCorrespondence[email protected]
Pages 81-89 | Received 24 Oct 2008, Accepted 02 Jul 2009, Published online: 25 Mar 2010

References

  • Bazin , A , Goverde , M , Erhardt , A and Shykoff , J . 2002 . Influence of atmospheric carbon dioxide enrichment on induced response and growth compensation after herbivore damage in Lotus corniculatus . Ecol Entomol , 27 : 271 – 278 .
  • Bazzaz , F A . 1990 . The responses of natural ecosystems to the rising global CO2 levels . Annu Rev Ecol Syst , 21 : 167 – 196 .
  • Bazzaz , F A , Chiariello , N R , Coley , PD and Pitelka , L F . 1987 . Allocating resources to reproduction and defense . Bioscience , 37 : 58 – 67 .
  • Bezemer , T M and Jones , T H . 1998 . Plant-insect herbivore interactions in elevated atmospheric CO2: quantitative analysis and guild effects . Oikos , 82 : 212 – 222 .
  • Bryant , J P , Chapin , I II FS and Klein , D R . 1983 . Carbon nutrient balance of boreal plants in relation to vertebrate herbivory . Oikos , 40 : 357 – 368 .
  • Chen , F J and Ge , F . 2004 . An experimental instrument to study the effects of changes in CO2 concentrations on the interactions between plants and insects – CDCC-1 chamber . Entomol Knowl , 41 ( 3 ) : 37 – 40 . (in Chinese)
  • Chen , F J , Ge , F and Su , J W . 2005b . An improved top-open chamber for research on the effects of elevated CO2 on agricultural pests in field — improved open-top chamber . Chin J Ecol , 24 ( 5 ) : 585 – 590 . (in Chinese)
  • Chen , F J , Wu , G and Ge , F . 2004 . Impacts of elevated CO2 on the population abundance and reproductive activity of aphid Sitobion avenae Fabricius feeding on spring wheat . J Appl Entomol , 128 : 723 – 730 .
  • Chen , F J , Wu , G , Ge , F , Parajulee , M N and Shrestha , R B . 2005a . Effects of elevated CO2 and transgenic Bt cotton on plant chemistry, performance, and feeding of an insect herbivore, the cotton bollworm . Entomol Exp Appl , 115 : 341 – 350 .
  • Coviella , C E , Stipanovic , R D and Trumble , J T . 2002 . Plant allocation to defensive compounds: interactions between elevated CO2 and nitrogen in transgenic cotton plants . J Exp Bot , 53 ( 367 ) : 323 – 331 .
  • Coviella , C E and Trumble , J T . 1999 . Effects of elevated atmospheric carbon dioxide on insect-plant interactions . Conserv Biol , 13 : 700 – 712 .
  • Drury , S J , Good , J EG , Perrins , C M , Buse , A and Kaye , T . 1998 . The effects of increasing CO2 and temperature on oak leaf palatability and the implications for herbivorous insects . Global Change Biol , 4 : 55 – 61 .
  • Goverde , M , Bazin , A , Shykoff , J A and Erhardt , A . 1998 . Enhanced CO2 alters the relationship between photosynthesis and defence in cyanogenic Eucalyptus cladocalyx F. Muell∗ . Plant Cell Environ , 21 : 12 – 22 .
  • Goverde , M , Erhardt , A and Stöcklin , J . 2004 . Genotype-specific response of a lycaenid herbivore to elevated carbon dioxide and phosphorus availability in calcareous grassland . Oecologia , 139 : 383 – 391 .
  • Hartley , S E , Jones , C G , Couper , G C and Johns , T H . 2000 . Biosynthesis of plant phenolic compounds in elevated atmospheric CO2 . Global Change Biol , 6 : 497 – 506 .
  • Hamilton , J G , Zangerl , A R , Delucia , E H and Berenbaum , M R . 2001 . The carbon-nutrient balance hypothesis: its rise and fall . Ecol Lett , 4 : 86 – 95 .
  • Houghton , J T , Meiro , F LG , Callander , B A , Harris , N , Kattenberg , A and Makell , K . 1996 . “ Climate change 1995: the science of climate change ” . In Contribution of Working Group I to the Second Assessment of the Intergovernmental Panel on Climate Change , Cambridge : Cambridge University Press .
  • Jarzomski , C M , Stamp , N E and Bowers , M D . 2000 . Effects on plant phenology, nutrients and herbivory on growth and defensive chemistry of plantain, Plantago lanceolata . Oikos , 88 : 371 – 379 .
  • Kimball , B A . 1986 . Influence of elevated CO2 on crop yield. Carbon dioxide enrichment of greenhouse crops, Vol. II: Physiology, yield, and economics , Edited by: Enoch , H Z and Kimbnall , B A . 105 – 115 . Boca Raton, FL : CRC .
  • Lerdau , M and Coley , P D . 2002 . Benefits of the carbon-nutrient balance hypothesis . Oikos , 98 : 533 – 535 .
  • Lincoln , D E , Couvet , D and Sionit , N . 1986 . Response of an insect herbivore to host plants grown in carbon dioxide-enriched atmospheres . Oecologia , 69 : 556 – 560 .
  • Lincoln , D E , Fajer , E D and Johnson , E H . 1993 . Plant-insect herbivore interactions in elevated CO2 environments . Trends Ecol Evol , 8 : 64 – 68 .
  • Lindroth , R L . 1996 . “ Consequences of elevated atmospheric CO2 for forest insects ” . In Carbon dioxide, populations and communities , Edited by: Korner , C and Bazzaz , F A . 347 – 361 . San Diego : Academic Press .
  • Mattson , W J . 1980 . Herbivory in relation to plant nitrogen content . Ann Rev Ecol Syst , 11 : 119 – 161 .
  • Men , X Y , Ge , F , Liu , X H and Yardim , E N . 2003 . Diversity of arthropod communities in transgenic Bt cotton and nontransgenic cotton agroecosystems . Environ Entomol , 32 : 270 – 275 .
  • Nitao , J K , Zangerl , A R , Berenbaum , M R , Hamilton , J G and Delucia , E H . 2002 . CNB: requiescat in pace? . Oikos , 98 ( 3 ) : 540 – 546 .
  • Osbrink , W LA , Trumble , J T and Wagner , R E . 1987 . Host suitability of Phaseolus lunata for Trichoplusia ni (Lepidoptera: Noctuidae) in controlled carbon dioxide atmospheres . Environ Entomol , 16 : 639 – 644 .
  • Rossi , A M , Stiling , P , Moon , D C , Cattell , M V and Drake , B G . 2004 . Induced defensive response of myrtle oak to foliar insect herbivory in ambient and elevated CO2 . J Chem Ecol , 30 ( 6 ) : 1143 – 1152 .
  • Roth , S K and Lindroth , R L . 1994 . Effects of CO2-mediated changes in paper birch and white pine chemistry on gypsy moth performance . Oecologia , 98 : 133 – 138 .
  • Ruohom[acaron]ki , K , Chapin , F SI , Haukioja , E , Neuvonen , S and Suomela , J . 1996 . Delayed inducible resistance in mountain birch in response to fertilization and shade . Ecology , 77 : 2302 – 2311 .
  • SAS Institute Inc . 1996 . SAS/STAT Software: changes and enhancements through release 6.12 , Cary, NC : Author .
  • Wigley , T ML and Raper , S CB . 1992 . Implications for climate and sea level of raise IPCC emission scenarios . Nature , 357 : 293 – 300 .
  • Williams , R S , Lincoln , D E and Norby , R J . 1998 . Leaf age effects of elevated CO2-grown white oak leaves on spring-feeding lepidopterans . Global Change Biol , 4 : 235 – 246 .
  • Wu , G , Chen , F J and Ge , F . 2006 . Response of multiple generations of cotton bollworm Helicoverpa armigera Hübner, feeding on spring wheat, to elevated CO2 . J Appl Entomol , 131 ( 1 ) : 2 – 9 .
  • Wu , G , Chen , F J , Sun , Y C and Ge , F . 2007a . Effects of elevated CO2 on the growth and foliar chemistry of transgenic Bt cotton . J Integr Plant Biol , 49 ( 9 ) : 1362 – 1370 .
  • Wu , G , Chen , F J , Sun , Y C and Ge , F . 2007b . Response of cotton to early-season square abscission under elevated CO2 . Agron J , 99 ( 3 ) : 791 – 796 .
  • Wu , G , Chen , F J and Ge , F . 2007c . Impacts of early-season square abscission on the growth and yield of transgenic Bt cotton under elevated CO2 . Field Crops Res , 102 : 239 – 243 .
  • Wu , G , Chen , F J , Ge , F and Sun , Y C . 2007d . Transgenic Bacillus thuringiensis (Bt) cotton (Gossypium hirsutum L.) allomone response to cotton aphid, Aphis gossypii (Glover) in a Closed-Dynamics CO2 Chamber (CDCC) . J Plant Res , 120 : 679 – 685 .
  • Wu , G , Harris , M K , Guo , J Y and Wan , F H . 2008 . Response of multiple generations of beet armyworm, Spodoptera exigua (Hübner), feeding on transgenic Bt cotton . J Appl Entomol , 133 : 90 – 100 .
  • Wu , K J and Gong , P Y . 1997 . A new and practical artifical diet for the cotton bollworm . Entomol Sinica , 4 : 277 – 282 .

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