"Insect herbivory along environmental gradients"
written by Nigel R. Andrew, Isobel R. Roberts, Sarah J. Hill,
published by Open Journal of Ecology, Vol.2 No.4, 2012
has been cited by the following article(s):
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[1] Response of a rice insect pest, Scirpophaga incertulas (Lepidoptera: Pyralidae) in warmer world
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[2] Weak latitudinal gradients in insect herbivory for dominant rangeland grasses of North America
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[3] Phytochemical screening, GC-MS profiling of invasive cocklebur (Xanthium strumarium)-insect-pathogen interaction and simulated volatile chemical signaling at …
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[4] Insect herbivory and herbivores of Ficus species along a rain forest elevational gradient in Papua New Guinea
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[5] Elevational relationship between functional leaf traits and insect herbivory in two cloud forest understory species in Mexico
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[6] Leaf traits mediate changes in invertebrate herbivory along broad environmental gradients on Mt. Kilimanjaro, Tanzania
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[7] Biases in studies of spatial patterns in insect herbivory
Ecological Monographs, 2019
[8] The latitudinal herbivory hypothesis revisited: To be part is to be whole
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[9] Role hmyzí herbivorie v populačním cyklu rostlin na příkladu čeledi Lycaenidae
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[10] 한국 남부 온대림 초식 곤충 식흔량에 영향을 주는 식물 다양성과 밀도
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[11] Intraspecific Variation in Plant-Animal Interactions of the Brassicaceae Family Along a Steep Rainfall Gradient in the Eastern Mediterranean Basin
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[12] Latitudinal variation in seagrass herbivory: Global patterns and explanatory mechanisms
Global Ecology and Biogeography, 2018
[13] Global patterns of insect herbivory in gap and understorey environments, and their implications for woody plant carbon storage
Oikos, 2018
[14] Latitudinal patterns of herbivore pressure in a temperate herb support the biotic interactions hypothesis
Ecology Letters, 2018
[15] Patrones de depredación de orugas con colores crípticos y aposemáticos/Caterpillar depredation patterns with cryptic colors and aposematics
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[16] Interacciones biológicas y patrones espaciales de diversidad: plantas, artrópodos herbívoros y herbivoría en gradientes altitudinales
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[17] Patterns and drivers of herbivore diversity and invertebrate herbivory along elevational and land use gradients at Mt. Kilimanjaro, Tanzania
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[18] Plant Diversity and Density, Driving Forces of the Feeding Activity of Herbivores in a Temperate Forest of Southern South Korea
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[19] Tree diversity increases levels of herbivore damage in a subtropical forest canopy: evidence for dietary mixing by arthropods?
2017
[20] Interactive effects of climate and nutrient enrichment on patterns of herbivory by different feeding guilds in mangrove forests
Global Ecology and Biogeography, 2017
[21] Morphological and functional diversity of foliar damage on Quercus mongolica Fisch. ex Ledeb.(Fagaceae) by herbivorous insects and pathogenic fungi
Journal of Asia-Pacific Biodiversity, 2017
[22] Forest diversity effects on insect herbivores: do leaf traits matter?
Thesis, 2017
[23] Higher predation risk for insect prey at low latitudes and elevations
2017
[24] The association of leaf lifespan and background insect herbivory at the interspecific level
Ecology, 2017
[25] Responses of insect herbivores and herbivory to habitat fragmentation: a hierarchical meta‐analysis
Ecology Letters, 2017
[26] Galling Insect Species Richness and Leaf Herbivory in an Abrupt Transition Between Cerrado and Tropical Dry Forest
2016
[27] Is there a latitudinal gradient in the proportion of species with spinescence?
Journal of Plant Ecology, 2016
[28] Latitudinal variation in herbivory: hemispheric asymmetries and the role of climatic drivers
Journal of Ecology, 2016
[29] A Framework for Predicting Intraspecific Variation in Plant Defense
Trends in Ecology & Evolution, 2016
[30] Plant-herbivore interactions along elevational gradient: Comparison of field and common garden data
Acta Oecologica, 2016
[31] Mutualism with aphids affects the trophic position, abundance of ants and herbivory along an elevational gradient
Ecosphere, 2015
[32] The equal effectiveness of different defensive strategies
Scientific reports, 2015
[33] Global patterns in background losses of woody plant foliage to insects
Global Ecology and Biogeography, 2015
[34] Feeding guild-‐specific effects of tree species richness on herbivory in a subtropical forest canopy
2015
[35] Genetic diversity and adaptation in Eucalyptus pauciflora
2014
[36] Biogeographical variation in arthropod communities on coyote bush, Baccharis pilularis
Insect Conservation and Diversity, 2014
[37] Spatial variation in leaf traits and herbivore community within the beech canopy between two different latitudes
Arthropod-Plant Interactions.Springer, 2014
[38] Potential impacts of climate change on insect communities: a transplant experiment
PloS one, 2014
[39] Confirmation bias leads to overestimation of losses of woody plant foliage to insect herbivores in tropical regions
PeerJ, 2014
[40] Herbivory makes major contributions to ecosystem carbon and nutrient cycling in tropical forests
Ecology letters, 2014
[41] Biogeographical variation in arthropod communities on
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[42] Plant defense against insect herbivores
International journal of molecular sciences, 2013
[43] Patterns of insect herbivory on four Australian understory plant species
Australian Journal of Entomology, 2013
[44] Different mechanisms explain feeding type-specific patterns of latitudinal variation in herbivore damage among diverse feeding types of herbivorous insects
Basic and Applied Ecology, 2013
[45] Patterns of insect herbivory on four A ustralian understory plant species
Australian Journal of Entomology, 2013
[46] Mixed effects of landscape structure, tree diversity and stand's relative position on insect and pathogen damage in riparian poplar forests