41 results were found for WA 0812 2782 5310 Pesan Pembuatan GreenHouse Bunga Daerah Miri Sragen.

Results:

31. VI_2021_008

/media/vedurstofan-utgafa-2021/VI_2021_008.pdf
32. 2010_005_

experiments with the GISS climate model (Hansen et al., 1983, 1984). Differences between the 1 CO2 and 2 CO2 equilibrium experiments were used to estimate greenhouse effects. Interpolated to Stykkishólmur, the warming annually was about 4 C, but ranging over the course of the year between 4.1–4.3 C from November to April, and between 3.6–3.8 C from June to September. Thus the wintertime warming exceeded /media/ces/2010_005_.pdf
33. Journal_of_Hydrology_Veijalainen_etal

The hydrological simulations were performed with the Wa- tershed Simulation and Forecasting System (WSFS) developed and operated in the Finnish Environment Institute (Vehviläinen et al., 2005). The WSFS is used in Finland for operational hydrolog- ical forecasting and flood warnings (www.environment.fi/water- forecast/), regulation planning and research purposes (Vehviläinen and Huttunen, 1997 /media/ces/Journal_of_Hydrology_Veijalainen_etal.pdf
34. ces-oslo2010_proceedings

of climate change on the energy sector are by many stakeholders considered uncertain and long- term. Therefore, these topics may be less prioritised than other issues of more immediate (and everyday) importance for the energy sector (such as mitigating greenhouse gas emissions, maintenance etc.). All research was considered relevant by the “dialogue group”. The work within the Risk Assessment /media/ces/ces-oslo2010_proceedings.pdf
35. Hare-2011-ParticipatoryModelling

ea th , th e m et ho d u se d at th is st ag e fo r th es e st ak eh o ld er typ es is sp ec ied .Sh oul d ther e be tw o o r mor e model sbein g develope d in th e process ,the n th e typ e o fmode lt o whic h th e metho d wa s applie d is show n in parentheses .O T re fe rs to th e co m po si tio n o ft he o rg an iz in g te am . Fo r o rg an iz in g te am in vo lve m en t in di ffe re n t pa rt /media/loftslag/Hare-2011-ParticipatoryModelling.pdf
36. VI_2009_006_tt

than can be expected to originate from the cauldrons, three to four times the wa- ter equivalent of the accumulation of snow over the watershed of the cauldrons. It has been estimated that flow from the cauldrons, in addition to the jökulhlaups, could be 2–5 m3 s 1 at maximum (Vatnaskil, 2005). It is possible that part of the sulfate-rich groundwater from the glacier comes from the cauldrons /media/vedurstofan/utgafa/skyrslur/2009/VI_2009_006_tt.pdf
37. VI_2022_006_extreme

Intercomparison Project (CMIP) is a large framework that collects the output from global coupled ocean-atmosphere general circulation models (GCMs) to project future climatic changes due to anthropogenic activity. For this project, results from the fifth 10 phase of the project (referred to as CMIP5; for details, see Taylor et al., 2012) are used based on two different greenhouse gas /media/vedurstofan-utgafa-2022/VI_2022_006_extreme.pdf
38. programme2---PhD-Workshop-preceding-Adaptation-Research-Conference

of greenhouse gases. Then again, this will most probably hit the most vulnerable harder because of their exposure and least adaptive capacity. - Developing countries will be most affected as most countries are in tropical and sub-tropical regions. In addition, many workers lack work security and are paid according to output and as a result, workers might in the future have to work longer hours /media/loftslag/programme2---PhD-Workshop-preceding-Adaptation-Research-Conference.pdf
39. VI_2017_009

2005 until 2100 and select two periods as a focus of this study; the mid-century (2041-2060) and the late-century (2081-2100). Furthermore, we choose RCP4.5 and RCP8.5 as emission scenarios. The numbers 4.5 and 8.5 indicated the possible radiative forcing in W/m2 in the year 2100 compared to pre- industrial values, and are a measure of the strength of the anthropogenic greenhouse effect /media/vedurstofan-utgafa-2017/VI_2017_009.pdf
40. 2012-Refsgaard_etal-uncertainty_climate-change-adaptation-MITI343

water systems impacts and socio-economic impacts (Fig. 2). The main uncertainties in the different steps are characterized (Table 1) with respect to the sources and nature of uncertainty following our above typology. In our cascading process we see that: Future greenhouse gas (GHG) emissions cannot be known with certainty because they depend on future human decisions and are characterised /media/loftslag/2012-Refsgaard_etal-uncertainty_climate-change-adaptation-MITI343.pdf