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W2080478575 abstract "We examined the changes in leaf phenolic chemistry and insect herbivory from saplings of two temperate deciduous species, Liriodendron tulipifera (tulip poplar) and Cornus florida (dogwood), planted in five microenvironments in Gilmer County, Georgia, USA. The experimental design permitted comparisons between saplings grown in an open field, under shade cloth within the field, on the edge between field and forest, in forest understory, and within canopy gaps established within the forest. Half of the trees in each microenvironment were fertilized. Leaves from each tree were sampled at the end of the growing season and 1989 and 1990 and analyzed for toughness, percent dry mass, total phenolics, hydrolyzable tannins, condensed tannins, and insect herbivory (percent leaf area damaged). The shade—tolerant dogwood saplings contained higher levels of total phenolics and hydrolyzable tannins than the shade—intolerant tulip poplar saplings. Dogwood generally had lower levels of herbivory. These results support earlier studies suggesting that slow—growing, shade—tolerant species tend to have higher levels of phenolics and experienced lower levels of herbivory than fast growing, shade—intolerant species. However, dogwood leaves contained lower levels of condensed tannins and were as tough as tulip poplar leaves. Sunlight availability had a significant positive influence on levels of phenolics in both species. Leaf phenolics generally increased with greater insolation from forest to field and when sunlight was greater within field for forest habitats. However, the levels of tannins in dogwood saplings only dropped significantly in the deep shade of the forest. The similar levels of dogwood phenolics in most microenvironments are indicative of the relatively high photosynthetic efficiency of this species in reduced light environments. Overall, these results are consistent with carbon/nutrient balance theory that predicts trade—offs in the allocation of photosynthate from defense to growth as light declines. Levels of insect herbivory and total phenolics were inversely related for dogwood. However, the relationship with tannins was less apparent. Herbivory on tulip poplar was unrelated to changes in phenolics, possibly reflecting the greater chemical diversity of that species. Fertilization increased the biomass of both species, but had no apparent influence on levels of leaf phenolics or insect hervivory. The lack of a fertilization effect was unexpected in light of previous suggestions that fertilization results in reduced phenolics and increased herbivory." @default.
W2080478575 created "2016-06-24" @default.
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W2080478575 date "1994-01-01" @default.
W2080478575 modified "2023-10-14" @default.
W2080478575 title "The Influence of Light and Nutrients on Foliar Phenolics and Insect Herbivory" @default.
W2080478575 cites W1530411899 @default.
W2080478575 cites W1549351030 @default.
W2080478575 cites W1895193940 @default.
W2080478575 cites W1964876306 @default.
W2080478575 cites W1972255175 @default.
W2080478575 cites W1982476641 @default.
W2080478575 cites W1986755620 @default.
W2080478575 cites W1989749513 @default.
W2080478575 cites W1992366970 @default.
W2080478575 cites W1994852508 @default.
W2080478575 cites W1996146047 @default.
W2080478575 cites W1997417654 @default.
W2080478575 cites W1997795803 @default.
W2080478575 cites W2010714868 @default.
W2080478575 cites W2015963465 @default.
W2080478575 cites W2019617705 @default.
W2080478575 cites W2024385856 @default.
W2080478575 cites W2026929545 @default.
W2080478575 cites W2028148461 @default.
W2080478575 cites W2034127800 @default.
W2080478575 cites W2034265503 @default.
W2080478575 cites W2039309807 @default.
W2080478575 cites W2041894479 @default.
W2080478575 cites W2044381083 @default.
W2080478575 cites W2049080108 @default.
W2080478575 cites W2058897404 @default.
W2080478575 cites W2059696497 @default.
W2080478575 cites W2063165095 @default.
W2080478575 cites W2063780574 @default.
W2080478575 cites W2065722346 @default.
W2080478575 cites W2066265570 @default.
W2080478575 cites W2068060172 @default.
W2080478575 cites W2072648616 @default.
W2080478575 cites W2074391365 @default.
W2080478575 cites W2075481977 @default.
W2080478575 cites W2077531674 @default.
W2080478575 cites W2078161284 @default.
W2080478575 cites W2080448777 @default.
W2080478575 cites W2084874307 @default.
W2080478575 cites W2094484190 @default.
W2080478575 cites W2111865015 @default.
W2080478575 cites W2119625429 @default.
W2080478575 cites W2122450421 @default.
W2080478575 cites W2144791685 @default.
W2080478575 cites W2160942107 @default.
W2080478575 cites W2166390717 @default.
W2080478575 cites W2239662813 @default.
W2080478575 cites W2317302549 @default.
W2080478575 cites W2327005047 @default.
W2080478575 cites W2331261234 @default.
W2080478575 cites W24688805 @default.
W2080478575 cites W2469290650 @default.
W2080478575 cites W2763903547 @default.
W2080478575 cites W2802264092 @default.
W2080478575 cites W2888860841 @default.
W2080478575 cites W2891949238 @default.
W2080478575 cites W2897029964 @default.
W2080478575 cites W604830895 @default.
W2080478575 doi "https://doi.org/10.2307/1939385" @default.
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