When attacked by herbivores, plants release volatile organic compounds (VOCs) that attract natural enemies of the herbivores and function as indirect defenses. Whether or not neighboring plants 'eavesdrop' on these VOCs remains controversial because mo
Plants release volatiles after herbivore attack in a highly regulated fashion. These compounds attra...
In contrast to animals, plants possess neither olfactory organs nor a central nervous system. Howeve...
As sessile organisms, plants cannot escape under attack. However, during evolution they developed at...
When attacked by herbivores, plants release volatile organic compounds (VOCs) that attract natural e...
Many plant species respond to herbivory with increased emission of volatile organic compounds (VOCs)...
Plants release volatiles after herbivore attack in a highly regulated fashion. These compounds attra...
Plants may "eavesdrop" on volatile organic compounds WOO released by herbivore-attacked neighbors to...
Plants respond to attacks by herbivorous insects by releasing specific blends of volatile organic co...
When damaged by herbivores, plants often produce and emit a suite of volatile organic compounds (VOC...
Plant volatile organic compounds (VOCs) are major vehicles of information transfer between organisms...
Plant odours are the most ubiquitous volatiles in nature. This chapter deals with the biochemistry a...
Plants emit biogenic volatile organic compounds (BVOCs) causing transcriptomic, metabolomic and beha...
In their natural environment, plants are faced with a multitude of attackers, of which insect herbiv...
Leaves normally release low levels of volatile chemicals. However, when a plant is damaged by herbiv...
Although plants are sessile organisms, they can modulate their phenotype so as to cope with environm...
Plants release volatiles after herbivore attack in a highly regulated fashion. These compounds attra...
In contrast to animals, plants possess neither olfactory organs nor a central nervous system. Howeve...
As sessile organisms, plants cannot escape under attack. However, during evolution they developed at...
When attacked by herbivores, plants release volatile organic compounds (VOCs) that attract natural e...
Many plant species respond to herbivory with increased emission of volatile organic compounds (VOCs)...
Plants release volatiles after herbivore attack in a highly regulated fashion. These compounds attra...
Plants may "eavesdrop" on volatile organic compounds WOO released by herbivore-attacked neighbors to...
Plants respond to attacks by herbivorous insects by releasing specific blends of volatile organic co...
When damaged by herbivores, plants often produce and emit a suite of volatile organic compounds (VOC...
Plant volatile organic compounds (VOCs) are major vehicles of information transfer between organisms...
Plant odours are the most ubiquitous volatiles in nature. This chapter deals with the biochemistry a...
Plants emit biogenic volatile organic compounds (BVOCs) causing transcriptomic, metabolomic and beha...
In their natural environment, plants are faced with a multitude of attackers, of which insect herbiv...
Leaves normally release low levels of volatile chemicals. However, when a plant is damaged by herbiv...
Although plants are sessile organisms, they can modulate their phenotype so as to cope with environm...
Plants release volatiles after herbivore attack in a highly regulated fashion. These compounds attra...
In contrast to animals, plants possess neither olfactory organs nor a central nervous system. Howeve...
As sessile organisms, plants cannot escape under attack. However, during evolution they developed at...
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