Climate Impacts on Sustainable Natural Resource Management. Группа авторов

Читать онлайн.
Название Climate Impacts on Sustainable Natural Resource Management
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119793397



Скачать книгу

and Salim, M.A. (2016). Rapid conversions and avoided deforestation: examining four decades of industrial plantation expansion in Borneo. Scientific Reports 6 (1): 1–13.

      35 Ghazoul, J. and Chazdon, R. (2017). Degradation and recovery in changing forest landscapes: a multiscale conceptual framework. Annual Review of Environment and Resources 42: 161–188.

      36 Gullison, R.E., Frumhoff, P.C., Canadell, J.G. et al. (2007). Tropical forests and climate policy. Science 316 (5827): 985–986.

      37 Hairiah, K., Dewi, S., Agus, F. et al. (2011). Measuring Carbon Stocks Across Land Use Systems: A Manual. Bogor, Indonesia: World Agroforestry Centre (ICRAF), Brawijaya University and ICALRRD (Indonesian Center for Agricultural Land Resources Research and Development).

      38 Harris, N.L., Petrova, S., Stolle, F., and Brown, S. (2008). Identifying optimal areas for REDD intervention: East Kalimantan, Indonesia as a case study. Environmental Research Letters 3: 035006. https://doi:10.1088/1748‐9326/3/3/035006.

      39 Houghton, R.A. (2012). Carbon emissions and the drivers of deforestation and forest degradation in the tropics. Current Opinion in Environmental Sustainability 4: 597–603. https://doi.org/10.1016/j.cosust.2012.06.006.

      40 Hosonuma, N., Herold, M., and De Sy, V. (2012). An assessment of deforestation and forest degradation drivers in developing countries. Environmental Research Letters 7 (4): 044009.

      41 Indonesia (2011a). The Presidential Instruction No. 10 of 2011 on The Moratorium of New Forest Concession Licenses and Management Improvement on Primary Forests and Peatlands.

      42 Indonesia (2011b). The Presidential Regulation No. 61 of 2011 on The National Action Plan for Greenhouse Gas Emissions Reduction.

      43 Indonesia (2011c). The Presidential Regulation No. 71 of 2011 on the Implementation of National GHG Inventory.

      44 Indonesia (2013). Indonesia's Framework for Nationally Appropriate Mitigation Actions. Jakarta, Indonesia: Ministry of National Development Planning.

      45 Indonesia (2016). First Nationally Determined Contribution, Republic of Indonesia. https://www4.unfccc.int/sites/ndcstaging/PublishedDocuments/Indonesia%20First/First%20NDC%20Indonesia_submitted%20to%20UNFCCC%20Set_November%20%202016.pdf (accessed 10 October 2020)

      46 IPCC (2006). IPCC Guidelines for National Greenhouse Gas Inventories, vol. 4. Tokyo, Japan: The Institute for Global Environmental Strategies (IGES) for the IPCC.

      47 Kamaruddin, A.F., Toriman, M.E., Juahir, H. et al. (2015). Spatial characterization and identification sources of pollution using multivariate analysis at Terengganu river basin, Malaysia. Jurnal Teknologi 77 (1): 269–273.

      48 Kim, S.T., Cai, W., Jin, F.F. et al. (2014). Response of El Niño sea surface temperature variability to greenhouse warming. Nature Climate Change 4 (9): 786–790.

      49 Kiswanto, Tsuyuki, S., and Sumaryono, M. (2018). Completing yearly land cover maps for accurately describing annual changes of tropical landscapes. Global Ecology and Conservation 13:e00384 https://doi.org/10.1016/j.gecco.2018.e00384.

      50 Krisnawati, H., Adinugroho, W.C., Imanuddin, R., Hutabarat, S. (2014). Estimation of forest biomass for quantifying CO2 emissions in Central Kalimantan: a comprehensive approach in determining forest carbon emission factors. Research and Development Center for Conservation and Rehabilitation, Forestry Research and Development Agency of the Ministry of Environment and Forestry, Bogor, Indonesia

      51 Kuenzer, C., Ottinger, M., Wegmann, M. et al. (2014). Earth observation satellite sensors for biodiversity monitoring: potentials and bottlenecks. International Journal of Remote Sensing 35 (18): 6599–6647.

      52 Le Quéré, C., Moriarty, R., Andrew, R.M. et al. (2015). Global carbon budget 2015. Earth System Science Data 7 (2): 349–396.

      53 Lehmann, J.O., Mogensen, L., and Kristensen, T. (2014). Extended lactations may improve cow health, productivity and reduce greenhouse gas emissions from organic dairy production. Organic Agriculture 4 (4): 295–299.

      54 Lindenmayer, D.B., Margules, C.R., and Botkin, D.B. (2000). Indicators of biodiversity for ecologically sustainable forest management. Conservation Biology 14 (4): 941–950.

      55 Logan‐Hines, E., Goers, L., Evidente, M., and Cashore, B. (2012). REDD+ policy options: including forests in an international climate change agreement. In: Managing Forest Carbon in a Changing Climate (eds. M.S. Ashton, M.L. Tyrrell, D. Spalding and B. Gentry), 357–376. Dordrecht: Springer.

      56 Margono, B.A., Potapov, P.V., Turubanova, S. et al. (2014). Primary forest cover loss in Indonesia over 2000–2012. Nature Climate Change 4 (8): 730–735.

      57 MoF (2008). IFCA 2007 consolidation report: reducing emissions from deforestation and forest degradation in Indonesia. Jakarta, Indonesia.

      58 Numata, I., Cochrane, M.A., Souza, C.M. Jr., and Sales, M.H. (2011). Carbon emissions from deforestation and forest fragmentation in the Brazilian Amazon. Environmental Research Letters 6: 1–7. https://doi.org/10.1088/1748‐9326/6/4/044003.

      59 Prasetyo, L.B., Saito, G. (2000). Spatial database development for estimation of emission of greenhouse gases using remote sensing and GIS in Sumatra Island, Indonesia. The 6th JIRCAS International Symposium. https://www.jircas.go.jp/sites/default/files/publication/intlsymp/intlsymp‐8_19‐28.pdf (accessed 3 February 2021)

      60 Pearson, T.R.H., Brown, S., Murray, L., and Sidman, G. (2017). Greenhouse Gas Emissions from Tropical Forest Degradation: An Underestimated Source. Carbon Balance and Management 12: 3. https://doi.org/10.1186/s13021‐017‐0072‐2.

      61 Potapov, P.V., Turubanova, S.A., Hansen, M.C. et al. (2012). Quantifying forest cover loss in Democratic Republic of the Congo, 2000‐2010, with Landsat ETM+ data. Remote Sensing of Environment 122: 106–116. https://doi.org/10.1016/j.rse.2011.08.027.

      62 Rahayu, S., Van Noordwijk, M., Lusiana, B. (2005). Aboveground carbon stock assesment for various land use systems in Nunukan District, Kalimantan In: Lusiana B, van Noordwijk M and Rahayu S, eds. Carbon Stocks in Nunukan: a spatial monitoring and modelling approach. Report from Carbon Monitoring Team of Forest Resource Management and Carbon Sequestration (FORMACS) Project. . Bogor, Indonesia. World.

      63 Rosa, I.M.D., Smith, M.J., Wearn, O.R. et al. (2016). The environmental legacy of modern tropical deforestation. Current Biology 26: 2161–2166. https://doi.org/10.1016/j.cub.2016.06.013.

      64 Santosa, I., Sugardiman, R.A., Wibowo, A. et al. (2014). Technical Guidelines for the Baseline Calculation of Greenhouse Gas Emissions and Sequestration in the Land‐Based Sector: Book i Scientific Background. Jakarta, Indonesia: Indonesia Ministry of National Development Planning.

      65 Sierra, C.A., del Valle, J.I., and Restrepo, H.I. (2012). Total carbon accumulation in a tropical forest landscape. Carbon Balance and Management 7 https://doi.org/10.1186/1750‐0680‐7‐12.

      66 Stanturf, J.A., Palik, B.J., and Dumroese, R.K. (2014). Contemporary forest restoration: a review emphasizing function. Forest Ecology and Management 331: 292–323. https://doi.org/10.1016/j.foreco.2014.07.029.

      67 TNC (2016). East Kalimantan Green Growth Compact: A Partnership for Prosperity and Conservation in the Tropical Forest, Global Agriculture Case Study. Samarinda, Indonesia: The Nature Conservancy (TNC).

      68 Tsujino, R., Yumoto,