SEARCH

SEARCH BY CITATION

References

  • Agrawal AA. 2001. Phenotypic plasticity in the interactions and evolution of species. Science 294: 321326.
  • Agrawal AA. 2004. Plant defense and density dependence in the population growth of herbivores. American Naturalist 164: 113120.
  • Agrawal AA. 2005. Natural selection on a common milkweed (Asclepias syriaca) by a community of specialized insect herbivores. Evolutionary Ecology Research 7: 651667.
  • Agrawal AA, Fishbein M. 2006. Plant defense syndromes. Ecology 87: S132S149.
  • Agrawal AA, Kearney EE, Hastings AP, Ramsey TE. 2012b. Attenuation of the jasmonate burst, plant defensive traits, and resistance to specialist monarch caterpillars on shaded common milkweed (Asclepias syriaca). Journal of Chemical Ecology 38: 839901.
  • Agrawal AA, Petschenka G, Bingham RA, Weber MG, Rasman S. 2012a. Toxic cardenolides: chemical ecology and coevolution of specialized plant–herbivore interactions. New Phytologist 194: 2845.
  • Asner GP, Martin RE. 2008. Spectral and chemical analysis of tropical forests: scaling from leaf to canopy levels. Remote Sensing of Environment 112: 39583970.
  • Asner GP, Martin RE, Knapp DE, Tupayachi R, Anderson C, Carranza L, Martinez P, Houcheime M, Sinca F, Weiss P. 2011. Spectroscopy of canopy chemicals in humid tropical forests. Remote Sensing of Environment 115: 35873598.
  • Atzberger C, Guérif M, Baret F, Werner W. 2010. Comparative analysis of three chemometric techniques for the spectroradiometric assessment of canopy chlorophyll content in winter wheat. Computers and Electronics in Agriculture 73: 165173.
  • Bilger W, Bjorkman O, Thayer S. 1989. Light-induced spectral absorbance changes in relation to photosynthesis and the epoxidation state of xanthophyll cycle components in cotton leaves. Plant Physiology 91: 542551.
  • Bingham RA, Agrawal AA. 2010. Specificity and trade-offs in the induced plant defence of common milkweed Asclepias syriaca to two lepidopteran herbivores. Journal of Ecology 98: 10141022.
  • Bolster KL, Martin ME, Aber JD. 1996. Determination of carbon fraction and nitrogen concentration in tree foliage by near infrared reflectance: a comparison of statistical methods. Canadian Journal of Forest Research 26: 590600.
  • Brower LP, McEvoy PB, Williamson KL, Flannery MA. 1972. Variation in cardiac glycoside content of monarch butterflies from natural populations in eastern North America. Science 177: 426429.
  • Chen S, Hong X, Harris CJ, Sharkey PM. 2004. Spare modeling using orthogonal forest regression with PRESS statistic and regularization. IEEE Transactions on Systems, Man and Cybernetics 34: 898911.
  • Chong I-G, Jun C-H. 2005. Performance of some variable selection methods when multicollinearity is present. Chemometrics and Intelligent Laboratory Systems 78: 103112.
  • Dussourd D, Eisner T. 1987. Vein-cutting behavior: insect counterploy to the latex defense of plants. Science 237: 898901.
  • Dyer L. 1995. Tasty generalists and nasty specialists? Antipredator mechanisms in tropical lepidopteran larvae. Ecology 76: 14831496.
  • Ebbers MJH, Wallis IR, Dury S, Floyd R, Foley WJ. 2002. Spectrometric prediction of secondary metabolites and nitrogen in fresh Eucalyptus foliage: towards remote sensing of the nutritional quality of foliage for leaf-eating marsupials. Australian Journal of Botany 50: 761768.
  • Foley WJ, McIlwee A, Lawler I, Aragones L, Wollnough AP, Berding N. 1998. Ecological applications of near infrared reflectance spectroscopy – a tool for rapid, cost-effective prediction of the composition of plant and animal tissues and animal performance. Oecologia 116: 293305.
  • Gamon JA, Serrano L, Surfus JS. 1997. The photochemical reflectance index: an optical indicator of photosynthetic radiation use efficiency across species, functional types, and nutrient levels. Oecologia 112: 492501.
  • Gamon JA, Surfus JS. 1999. Assessing leaf pigment content and activity with a reflectometer. New Phytologist 143: 105117.
    Direct Link:
  • Gao B. 1996. NDWI–a normalized difference water index for remote sensing of vegetation liquid water from space. Remote Sensing of Environment 58: 257266.
  • Gillon D, Houssard C, Joffre R. 1999. Using near-infrared spectroscopy to predict carbon, nitrogen and phosphorus content in heterogeneous plant material. Oecologia 118: 173182.
  • Grossman YL, Ustin SL, Jacquemoud S, Sanderson EW, Schmuck G, Verdebout J. 1996. Critique of stepwise multiple linear regression for the extraction of leaf biochemistry information from leaf reflectance data. Remote Sensing of Environment 56: 182193.
  • Guisan A, Thuiller W. 2005. Predicting species distribution: offering more than simple habitat models. Ecology Letters 8: 9931009.
  • Herm DA, Mattson WJ. 1992. The dilemma of plant: to grow or defend. The Quarterly Review of Biology 67: 283335.
  • Karban R, Baldwin IT. 1997. Induced responses to herbivory. Chicago, IL, USA: The University Press.
  • Kessler A, Baldwin IT. 2002. Plant responses to insect herbivory: the emerging molecular analysis. Annual Review of Plant Biology 53: 299328.
  • Kleinebecker T, Schmidt SR, Fritz C, Smolders AJP, Hölzel N. 2009. Prediction of δ13C and δ15N in plant tissues with near-infrared reflectance spectroscopy. New Phytologist 184: 732739.
  • Kreis W, Müller-Uri F. 2010. Biochemistry of sterols, cardiac glycosides, brassinosteroids, phytoecdysteroids and steroid saponins. In: Wink M, ed. Biochemistry of plant secondary metabolism. Sheffield, UK: CRC Press, 304363.
  • Malcolm SB. 1991. Cardenolide-mediated interactions between plants and herbivores. In: Rosenthal GA, Berenbaum MR, eds. Herbivores: their interactions with secondary plant metabolites, 2nd edn, Volume I: the chemical participants. San Diego, CA, USA: Academic Press, 251296.
  • Malcolm SB. 1995. Milkweeds, monarch butterflies and the ecological significance of cardenolides. Chemoecology 5/6: 101117.
  • Malcolm SB, Cockrell BJ, Brower LP. 1989. Cardenolide fingerprint of monarch butterflies reared on a common milkweed Asclepias syriaca L. Journal of Chemical Ecology 15: 819853.
  • Malcolm SB, Zalucki MP. 1996. Milkweed latex and cardenolide induction may resolve the lethal plant defense paradox. Entomologia Experimentalis et Applicata 80: 193196.
  • Mooney KA, Halitschke R, Kessler A, Agrawal AA. 2010. Evolutionary trade-offs in plants mediate the strength of trophic cascades. Science 327: 16421644.
  • Nagel JM, Griffin KL. 2004. Can gas exchange characteristics help explain the invasive success of Lythrum salicaria? Biological Invasions 6: 101111.
  • Nelson CJ. 1993. Sequestration and storage of cardenolides and cardenolide glycosides by Danaus plexippus and D. chrysippus petila when reared on Asclepias fruticosa: with a review of some factors that influence sequestration. In: Malcolm SB, Zalucki MP, eds. Biology and conservation of the monarch butterfly. Los Angeles, CA, USA: Natural History Museum of Los Angeles County, 8390.
  • Petisco C, Garcia-Criado B, Mediavilla S, Vázquez de Aldana BR, Zabalgogeazcoa I, García-Ciudad A. 2006. Near-infrared reflectance spectroscopy as a fast and non-destructive tool to predict foliar organic constituents of several woody species. Analytical and Bioanalytical Chemistry 386: 18231833.
  • Rasmann S, Agrawal AA. 2009. Plant defense against herbivory: progress in identifying synergism, redundancy, and antagonism between resistance traits. Current Opinion in Plant Biology 12: 473478.
  • Rasmann S, Agrawal AA, Cook SC, Erwin AC. 2009. Cardenolides, induced responses, and interactions between above- and belowground herbivores of milkweed (Asclepias spp.). Ecology 90: 23932404.
  • Serbin SP, Dillaway DN, Kruger EL, Townsend PA. 2012. Leaf optical properties reflect variation in photosynthetic metabolism and its sensitivity to temperature. Journal of Experimental Botany 63: 489502.
  • Shenk JS, Workman JJ, Westerhaus MO. 1992. Application of NIR spectroscopy to agricultural products. In: Burns DA, Ciurczak EW, eds. Handbook of near-infrared analysis. New York, NY, USA: Marcel Dekker, 383431.
  • Sims DA, Gamon JA. 2003. Estimation of vegetation water content and photosynthetic tissue area from spectral reflectance: a comparison of indices based on liquid water and chlorophyll absorption features. Remote Sensing of Environment 84: 526537.
  • Thaler JS, Stout MJ, Karban R, Duffey SS. 2001. Jasmonate-mediated induced plant resistance affects a community of herbivores. Ecological Entomology 26: 312324.
  • Thompson JN. 1999. The evolution of species interactions. Science 284: 21162118.
  • Vanette RL, Hunter MD. 2011. Genetic variation in expression of defense phenotype may mediate evolutionary adaptation of Asclapias syriaca to elevated CO2. Global Change Biology 17: 12771288.
  • Wold S, Ruhe A, Wold H, Dunn WJI. 1984. The collinearity problem in linear regression. The partial least squares (PLS) approach to generalized inverses. SIAM Journal on Scientific and Statistical Computing 5: 735743.
  • Wold S, Sjostrom M, Eriksson L. 2001. PLS-regression: a basic tool of chemometrics. Chemometrics and Intelligent Laboratory Systems, 58: 109130.
  • Zalucki MP, Brower LP, Alonso A. 2001. Detrimental effects of latex and cardiac glycosides on survival and growth of first-instar monarch butterfly larvae Danaus plexippus feeding on the sandhill milkweed Asclepias humistrata. Ecological Entomology 26: 212224.
  • Zehnder CB, Hunter MD. 2007. Interspecific variation within the genus Asclepias in response to herbivory by a phloem-feeding insect herbivore. Journal of Chemical Ecology 33: 20442053.