Description: The association between beta-glucan (MacroGard (R)) supplemented feed and apoptosis in immune-related organs of common carp (Cyprinus carpio) was studied using fluorescence microscopy and real-time PCR. In addition the effect of Aeromonas salmonicida, LPS and Poly(I:C) injections on this relationship was evaluated. Whilst acridine orange staining revealed that apoptosis levels were independent of MacroGard (R) and LPS/Poly(1:C) administration or their combination, it was shown that injection with A. salmonicida increased the percentage of apoptotic cells irrespective of the feeding regime. It was apparent that in all the treatments gene expression profiles displayed organ and time dependency. For example no effect was observed at 7 days of MacroGard (R) administration while 25 days of feeding led to increased iNOS expression and differential up-regulation of anti- or pro-apoptotic genes depending on organ. This may indicate differences in NO sensitivity. MacroGard (R) also led to an elevation of pro- as well as anti-apoptotic genes in LPS or Poly(1:C) injected fish, while LPS/Poly(I:C) alone had little effect. A. salmonicida caused enhanced iNOS expression and it is possible that the type of apoptosis pathway induced is organ dependent as Caspase 9 is induced in mid-gut but not in pronephros. These results indicate that MacroGard (R) feeding alone or in combination with other pathogenic factors did not induce significant apoptosis in immune organs

Description: The Australian Community Climate and Earth System Simulator (ACCESS) has contributed to the World Climate Research Programme’s Coupled Model Intercomparison Project Phase 6 (CMIP6) using two fully coupled model versions (ACCESS-CM2 and ACCESS-ESM1.5) and two ocean–sea-ice model versions (1° and 0.25° resolution versions of ACCESS-OM2). The fully coupled models differ primarily in the configuration and version of their atmosphere components (including the aerosol scheme), with smaller differences in their sea-ice and land model versions. Additionally, ACCESS-ESM1.5 includes biogeochemistry in the land and ocean components and can be run with an interactive carbon cycle. CMIP6 comprises core experiments and associated thematic Model Intercomparison Projects (MIPs). This paper provides an overview of the CMIP6 submission, including the methods used for the preparation of input forcing datasets and the post-processing of model output, along with a comprehensive list of experiments performed, detailing their initialisation, duration, ensemble number and computational cost. A small selection of model output is presented, focusing on idealised experiments and their variants at global scale. Differences in the climate simulation of the two coupled models are highlighted. ACCESS-CM2 produces a larger equilibrium climate sensitivity (4.7°C) than ACCESS-ESM1.5 (3.9°C), likely a result of updated atmospheric parameterisation in recent versions of the atmospheric component of ACCESS-CM2. The idealised experiments run with ACCESS-ESM1.5 show that land and ocean carbon fluxes respond to both changing atmospheric CO2 and to changing temperature. ACCESS data submitted to CMIP6 are available from the Earth System Grid Federation (https://doi.org/10.22033/ESGF/CMIP6.2281 and https://doi.org/10.22033/ESGF/CMIP6.2288). The information provided in this paper should facilitate easier use of these significant datasets by the broader climate community.