Abstract
Host plant interactions are likely key drivers of evolutionary processes involved in the diversification of phytophagous insects. Granivory has received substantial attention for its crucial role in shaping the interaction between plants and their seed parasites, but fine-scale mechanisms explaining the role of host plant reproductive biology on specialization of seed parasites remain poorly described. In a comparative approach using plant histological techniques, we tested the hypotheses that different seed parasite species synchronize their life cycles to specific stages in seed development, and that the stage they target depends on major differences in seed development programs. In a pinaceous system, seed storage products are initiated before ovule fertilization and the wasps target the ovule’s nucellus during megagametogenesis, a stage at which larvae may benefit from the by-products derived from both secreting cells and dying nucellar cells. In a cupressaceous system, oviposition activity peaks later, during embryogenesis, and the wasps target the ovule’s megagametophyte where larvae may benefit from cell disintegration during embryogenesis. Our cytohistological approach shows for the first time how, despite divergent oviposition targets, different parasite species share a common strategy that consists of first competing for nutrients with developing plant structures, and then consuming these developed structures to complete their development. Our results support the prediction that seed developmental program is an axis for specialization in seed parasites, and that it could be an important parameter in models of their ecological and taxonomic divergence. This study provides the basis for further investigating the possibility of the link between plant ontogeny and pre-dispersal seed parasitism.
Highlights
Seeds are highly sought after by many animal species as they are extremely aggregated in space with high local abundance relative to other food resources, and as they generally contain nutrient with greater energy than other plant structures [1]
A central finding of our study is the implication that ecological specialization in pre-dispersal seed parasites is possibly due to synchronization of oviposition timing with the onset of nutrient formation within the targeted plant tissues
In the life cycle of coniferous hosts both megagametogenesis and embryogenesis represent nutrient-abundant stages [12], our data show that early stages of larval development in Megastigmus species have specialized to take advantage of these situations to the detriment of seed development
Summary
Seeds are highly sought after by many animal species as they are extremely aggregated in space with high local abundance relative to other food resources, and as they generally contain nutrient with greater energy than other plant structures [1]. To take advantage of this situation many seed parasites evolved towards an endophytic life-cycle within seed tissues during their early development (pre-dispersal seed parasites) The onset of such host-parasite interactions is most likely linked with host plant reproductive biology. Most angiosperms and some gymnosperms (e.g. Cupressaceae), require pollination to ensure the normal development of both female gametophyte (megagametophyte) and ovule; nutrient products only begin to accumulate following fertilization [11,12,13]. Unpollinated megagametophytes will eventually abort, resulting in a so-called empty seeds [12,15,16] Such variation in host reproductive pathways presents different targets for seed parasites seeking storage reserves, for which phenological synchrony with the reproductive stages of their host may be under strong selection and drive ecological specialization [6,17,18]. Plant histological techniques have proven to be successful in investigating the biology and broader evolutionary patterns in cynipid gall wasps [24,25], another family of plant host parasites that share phenological constraints on oviposition with seed endoparasites
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