Abstract
The ability to distinguish self from non-self allows organisms to protect themselves against attackers. Sagebrush plants use volatile cues emitted by clipped neighbors to adjust their defenses against herbivores. Recently, we reported that cues from genetically identical ‘self’ clones were more effective at reducing damage than were cues from ‘non-self’ clones. This indicates that plants can distinguish self from non-self through volatiles and respond differentially. Identity recognition may be an essential step in enabling plants to behave cooperatively. Emission of cues which enable other plant tissues (on the same or other individual) to respond appropriately to herbivore risk may have evolved if cues are aimed primarily at self tissue.
Acknowledgements
We thank Susan Dudley for comments that improved this paper and the JSPS for financial support.
Figures and Tables
Figure 1 The mean number of leaves that were damaged by herbivores (grasshoppers, caterpillars and deer) on assay branches of sagebrush (±1 se). Cuttings were either genetically identical (self) or different (non-self) from the assay branch; assay branches were within 5 cm of potted cuttings but not in physical contact. Cuttings were experimentally clipped to simulate herbivory in May and herbivore damage accumulated on the assay branches until season's end in September when damage was assayed.
![Figure 1 The mean number of leaves that were damaged by herbivores (grasshoppers, caterpillars and deer) on assay branches of sagebrush (±1 se). Cuttings were either genetically identical (self) or different (non-self) from the assay branch; assay branches were within 5 cm of potted cuttings but not in physical contact. Cuttings were experimentally clipped to simulate herbivory in May and herbivore damage accumulated on the assay branches until season's end in September when damage was assayed.](/cms/asset/f8a37f0a-7d2b-4aa9-83ff-a7c31dd200ae/kpsb_a_10911828_f0001.gif)
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