A REVIEW OF THE BIOLOGY OF RAFFLESIA: WHAT DO WE KNOW AND WHAT’S NEXT?

A literature review was conducted to summarize information, particularly recently published, on the biology of Rafflesia. By far most of the recent papers on Rafflesia have named new species. Since 2002, ten species have been discovered in the Philippines compared to three species in Indonesia. Recent work also has explored phylogenetics (e.g. evolutionary history of the genus and of floral gigantism, horizontal transfer of genes and loss of the chloroplast genome) and anatomy (e.g. endophyte, flower development); other recent studies have focused on biochemistry. Unfortunately, we still know very little about the life cycle, biology and ecological relations of Rafflesia. Much of what we know comes from observations and not from experimental evidence. Population declines have been noted which are sometimes related to habitat destruction or natural disturbances but other times the cause(s) are unknown. Questions remain unanswered on its reproductive biology and on its population genetic structure and diversity. With changing climates, we vitally need long-term population studies in relation to environmental parameters

Roles of the Environment in Plant Life-History Trade-offs

Variation in plant life-history and functional traits at between- and within-species levels has key ecological consequences, in which environmental settings impose strong selective pressures and play a vital role throughout life cycles. Our general notion for plant life-history strategies may be that, relative to tall, long-lived plants, short-lived species have features of small stature, small-seededness, rapid growth, and low seedling survival (k- versus r-selection). Rate of evolution may be an important agent of selection and annals evolve more rapidly than perennial congeners. These empirical observations prompt a suite of enticing questions, such as how do life-history traits interplay with functional trait at late stages of regeneration? what are the primary trade-offs in a cohort of key life-history traits that may have undergone stabilizing selection? and how do environmental filters differently affect adaptive trait variation in annuals and perennials? In this chapter, we intend to address aforementioned questions via assembling our updated knowledge with emphasis on seed mass and temporal and spatial dimensions of seed dispersal. Through such synthesis, we wish to raise awareness about life-history trade-offs and provide a holistic understanding of the extent to which climate change is likely to impact plant adaptation and eco-evolutionary trajectories of life-history phenotypes

Seed germination and seedling development ecology in world-wide populations of a circumboreal Tertiary relict

Ecological traits of the circumboreal plant Viburnum opulus were examined to improve understanding of the variation of populations occurring in the same biome but on different continents. Seedling development/emergence is shown to be highly similar but some degree of variation was present in other traits, among populations

Multi-messenger searches via IceCube’s high-energy neutrinos and gravitational-wave detections of LIGO/Virgo

We summarize initial results for high-energy neutrino counterpart searches coinciding with gravitational-wave events in LIGO/Virgo\u27s GWTC-2 catalog using IceCube\u27s neutrino triggers. We did not find any statistically significant high-energy neutrino counterpart and derived upper limits on the time-integrated neutrino emission on Earth as well as the isotropic equivalent energy emitted in high-energy neutrinos for each event