Abstract
In natural systems plants face a plethora of antagonists and thus have evolved multiple defence strategies. Lima bean (Phaseolus lunatus L.) is a model plant for studies of inducible indirect anti-herbivore defences including the production of volatile organic compounds (VOCs) and extrafloral nectar (EFN). In contrast, studies on direct chemical defence mechanisms as crucial components of lima beans' defence syndrome under natural conditions are nonexistent. In this study, we focus on the cyanogenic potential (HCNp; concentration of cyanogenic glycosides) as a crucial parameter determining lima beans' cyanogenesis, i.e. the release of toxic hydrogen cyanide from preformed precursors. Quantitative variability of cyanogenesis in a natural population of wild lima bean in Mexico was significantly correlated with missing leaf area. Since existing correlations do not by necessity mean causal associations, the function of cyanogenesis as efficient plant defence was subsequently analysed in feeding trials. We used natural chrysomelid herbivores and clonal lima beans with known cyanogenic features produced from field-grown mother plants. We show that in addition to extensively investigated indirect defences, cyanogenesis has to be considered as an important direct defensive trait affecting lima beans' overall defence in nature. Our results indicate the general importance of analysing ‘multiple defence syndromes’ rather than single defence mechanisms in future functional analyses of plant defences.
Highlights
Lima bean (Fabaceae: Phaseolus lunatus L.) represents a prominent experimental model plant for studies of inducible indirect plant defences against herbivores [1]
The general linear model (GLM) predicted no effects of ‘Plant Size’ or ‘Light Exposure’ on HCNp (Table 1). These findings indicate that microclimatic conditions as well plant age or size have limited impact on leaf HCNp in lima bean plants at natural sites
Our results obtained under feeding trial conditions (i) demonstrate a central role of HCNp for feeding choice behaviour of both beetle species and (ii) provide a causal quantitative explanation for variability of feeding damage observed on individual lima bean plants in nature
Summary
Lima bean (Fabaceae: Phaseolus lunatus L.) represents a prominent experimental model plant for studies of inducible indirect plant defences against herbivores [1]. These indirect (carnivore attracting) defences include the release of herbivoreinduced volatile organic compounds (VOCs) and secretion of extrafloral nectar (EFN). The functional interplay of different plant traits involved in a plant’s overall defences under natural conditions is poorly understood in many cases To better understand this functional interplay of different defensive traits, multiple contributing components must be analysed thoroughly
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