The daily and annual growth bands formed in biogenic carbonates such as coral skelerons and molluscan shells could serve as the high-temporal resolution archives for the environmental and/or physiological changes during their life span. We use skeletological and geochemical approaches to investigate the histories recorded in living and fossil specimens. Understanding the past climate variability and oceanographyic events in the tropical ocean is a high priority as long-term obsercation is very limited in these areas. Tropical shallow water corals could live up to several hundred years and the decadal to century-scale of climate and oceanic signals such as glocal warming, ocean acidification, El-nino Southern Oscillation (ENSO), anthropogenic CO₂ uptake, atmosphere, marine pollution, river discharge, and ocean circuration dynamics could be detected via reconstructing temperature, salinity, pH, nutrient, and chemical composition in seawater by using isotopes (e.g. oxygen, carbon, boron, lead, and nitrogen isotopes) and elemental (e.g. Sr/Ca, Mg/Ca, and Ba/Ca ratios) analysis along the growth direction.
Ocean acidification and rising atmospheric CO₂ with global warming are also predicted to severely damege the calcification processes of marine organisms and thus the sustinability of marine ecosystems in the near future. The skeletal density, extension rate, and calcification rate deduced from coral cores cuould be useful to estimate the response and acclimatization against such environmental changes during last few hundred years, and to predict the future of coral reefs and ecosystems exhibiting coral acclimation to warmer, more acidified, and polluted conditions.
On the other hand, such recent advance of microanalytical techniques also revealed large heterogeneity of these isotopic and elemental composition in nano to sub-micrometer scale of skeletal microstructures, which are difficult to explain simply by surrounding environmental changes, suggesting understanding biomineralization processes in cellular level with more complexity and plasticity are important to establish more reliable proxy for past environmental changes. I would like to introduce our recent and on-going researches applied on modern and fossil specimens in western pacific, Indian Ocean, and Caribbean Sea and also recent efforts to understand biomineralization process of coral reef dweller.

References
Yamazaki, et al. (2016) A 150-year variation of the Kuroshio transport inferred from coral nitrogen isotope signature, Paleooceanography
Yamazaki, et al. (2014) The coral d15N record of terrestrial nitrate loading varies with river catchment land use, Coral Reefs
Ohmori, et al. (2013) Lead concentration and isotopic composition in the Pacific sclerosponge (Acanthochaetetes wellsi) reflects environmental lead pollution, Geology
Sano et al. (2012) Past daily light cycle recorded in the strontium/ calcium ratios of giant clam shells, Nature Communication.
Watanabe, et al. (2011) Permanent El Niño during the Pliocene warm period not supported by coral evidence, Nature