2012
DOI: 10.1104/pp.112.204750
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Climate Change: Resetting Plant-Insect Interactions

Abstract: Elevated CO 2 and temperature are altering the interactions between plants and insects with important implications for food security and natural ecosystems. Ecologically, the acceleration of plant phenology by warming is generating mismatches between plants and insect pollinators. Similarly, shifting the rate of plant development relative to insect development can amplify or minimize the consequences of herbivory. Warming also enables some insects to increase the number of generations per year, thus increasing… Show more

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Cited by 319 publications
(263 citation statements)
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References 73 publications
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“…These results suggest that elevated CO 2 may reduce the levels or function of ethylene and thereby ameliorate the O 3 -inhibition of photosynthesis. Kobayakawa and Imai (2013c) found that JA contents in rice leaves were decreased slightly by elevated CO 2 , as reported previously (DeLucia et al, 2012). Likewise, rice plants grown under elevated CO 2 are more susceptible to leaf blast than those grown under ambient CO 2 (Kobayashi et al, 2006).…”
Section: Discussionsupporting
confidence: 69%
See 1 more Smart Citation
“…These results suggest that elevated CO 2 may reduce the levels or function of ethylene and thereby ameliorate the O 3 -inhibition of photosynthesis. Kobayakawa and Imai (2013c) found that JA contents in rice leaves were decreased slightly by elevated CO 2 , as reported previously (DeLucia et al, 2012). Likewise, rice plants grown under elevated CO 2 are more susceptible to leaf blast than those grown under ambient CO 2 (Kobayashi et al, 2006).…”
Section: Discussionsupporting
confidence: 69%
“…However, the amelioration of O 3 -inhibition by SA application and the increase of endogenous SA in rice leaves (Kobayakawa and Imai, 2012b) are less than in other plants such as Arabidopsis (Sharme et al, 1996), tobacco (Yalpani et al, 1994) and soybean (Zhao et al, 2010). Moreover, elevated CO 2 induces SA production and suppresses JA production in leaves such as tomato, soybean, and ginger (DeLucia et al, 2012). In paddy rice, Kobayakawa and Imai (2013c) found that endogenous JA and MeJA contents in leaves were decreased slightly by elevated CO 2 (800 cm 3 m -3 ).…”
mentioning
confidence: 99%
“…Consequently, the relationships between plants and insects are among the most intensively studied biotic interactions [3,4], and the exploration of changes in insect-plant relationships caused by the abiotic drivers of global change has become increasingly popular during the past decades. The existing scenarios generally predict that increasing temperature will cause faster increases in herbivory than in plant productivity [5][6][7], although the suggested mechanisms behind this prediction are diverse. Population densities of plant-feeding insects were predicted to increase because of direct beneficial effects of warmer climate on insect herbivores [8] and adverse effects of increased climatic variability on their natural enemies [9].…”
Section: Introductionmentioning
confidence: 99%
“…The phenological change relating to the start and end of the growing season can affect the vegetation productivity and carbon cycle (Keenan et al 2014;Richardson et al 2010Richardson et al , 2013. Also, the shift in plant phenophases would result in mismatches between plants and pollinators, predators and prey, and pests and hosts (DeLucia et al 2012;Donnelly et al 2011;Hegland et al 2008). In addition, human health is affected by plant phenology, through the linkage between flowering phenology and allergenic pollen (Reid and Gamble 2009).…”
Section: Introductionmentioning
confidence: 99%