The rapid expansion of Indonesia’s marine protected area requires improvement in management effectiveness

Indonesia’s marine ecosystems are among the most diverse in the world, supporting extensive critical habitats with strong connections to coastal communities. To keep pace with increasing pressures on the environment, conservation efforts need to be strengthened and expanded. The Government of Indonesia has committed to protecting marine ecosystems through establishing 32.5 million ha of marine protected areas (MPAs), with 20 million ha effectively managed, by 2030. Therefore, collating data on the status and progress of marine conservation efforts nationally is important to show the extent to which this target is being reached. Here we provide an overview of the status and trends of spatial coverage and management effectiveness of MPAs in Indonesia. As of 2020, Indonesia had made good progress in reaching its target – with 23.9 million ha MPA established and some —albeit slow— increases in MPA management effectiveness. Moving forward, we recommend that marine protection efforts in Indonesia need to balance MPAs expansion with improvement in effectiveness. Improvement of management effectiveness will require significant efforts, including improving institutional coordination, ensuring adequate human and financial resources, and strengthened monitoring, evaluation, and learning to inform adaptive management. Future MPA expansion should focus on addressing specific gaps in the existing network, such as increasing coastal habitat representation, and connectivity, or increasing recognition of a diversity of governance approaches (e.g., by communities or private entities). Progress over recent decades, however, suggests Indonesia is making progress on its marine protection goals and is well placed to meet potential future targets

The inclusion of fisheries and tourism in marine protected areas to support conservation in Indonesia

With the rapid growth of Indonesia’s marine protected area (MPAs) estate in Indonesia, reaching 23.9 million hectares by January 2020, attention needs to be focused on strengthening the effectiveness of MPA management. Consolidating and expanding protection of Indonesia’s marine resources is critical with increasing pressure from a fast-expanding population, illegal, unreported, and unregulated fishing, pollution, coastal development, unsustainable tourism and climate change. Biodiversity conservation must therefore concurrently consider multiple economic sectors such as fisheries and tourism, and their synergies with MPA management. This paper aims to outline the current landscape of fisheries and marine tourism pertaining to area-based conservation in Indonesia, to inform and support improved integration into effective MPA management. Four areas to focus efforts were identified: diversification of governance types of community-based management, improved coordination between fisheries and MPAs during planning and management implementation, the development and support of pathways for sustainable tourism, and planning for future conditions. Sustainable development for fisheries and tourism must be incorporated into all aspects of MPA management, whilst recognising that current management systems are insufficient to ensure long-term sustainability for natural resources and local communities, and strategies need to increase resilience of social-ecological systems in anticipation of future conditions

Sexual reproduction in three hermaphroditic deep-sea Caryophyllia species (Anthozoa: Scleractinia) from the NE Atlantic Ocean

The reproductive biology and gametogenesis of three species of Caryophyllia were examined using histological techniques. Caryophyllia ambrosia, Alcock 1898, C. cornuformis, Pourtales 1868, and C. sequenzae, Duncan 1873, were collected from the Porcupine Seabight and Rockall Trough in the NE Atlantic Ocean. These three ahermatypic solitary corals inhabit different depth ranges: C. cornuformis – 435–2000 m, C. sequenzae – 960–1900 m, and C. ambrosia – 1100–3000 m. All three species are hermaphroditic. Hermaphroditism in these species was found to be cyclical, with only one sex of gametes viable in any individual at any point in time, although gametes of both sexes were found together within a single mesentery. Once the viable gametes are spawned, the next sex of gametes continues to grow until mature, and so gametogenesis is a continuous cycle. Oocytes and spermacysts in all species increased in density towards the actinopharynx. Maximum fecundity for C. sequenzae was 940 oocytes per polyp, and for C. ambrosia 2900 oocytes per polyp. Fecundity could not be established for C. cornuformis. In all three species, individuals were asynchronous within populations, and production of gametes was quasi-continuous throughout the year. All species are hypothesised to have lecithotrophic larvae owing to their large oocyte sizes (C. cornuformis max – 350 ?m; C. sequenzae max – 430 ?m; C. ambrosia max – 700 ?m). Both the average oocyte size and fecundity increased in species going down the depth gradient of the NE Atlantic

Microbial ecology of the cryosphere: sea ice and glacial habitats

The Earth's cryosphere comprises those regions that are cold enough for water to turn into ice. Recent findings show that the icy realms of polar oceans, glaciers and ice sheets are inhabited by microorganisms of all three domains of life, and that temperatures below 0 °C are an integral force in the diversification of microbial life. Cold-adapted microorganisms maintain key ecological functions in icy habitats: where sunlight penetrates the ice, photoautotrophy is the basis for complex food webs, whereas in dark subglacial habitats, chemoautotrophy reigns. This Review summarizes current knowledge of the microbial ecology of frozen waters, including the diversity of niches, the composition of microbial communities at these sites and their biogeochemical activities