50 results were found for WA 0821 1305 0400 Jasa Bikin Interior Rumah 6 X 12 Daerah Jakarta Selatan.

Results:

• 21. Milly_etal-2008-Stationarity-dead-Science

  6University of Washington, Seattle, WA 98195, USA. 7NOAA Geophysical Fluid Dynamics Laboratory, Princeton, NJ 08540, USA. *Author for correspondence. E-mail: cmilly@usgs.gov. An uncertain future challenges water planners. Published by AAAS on July 12, 201 1 www.sciencemag.or g Downloaded from 1 FEBRUARY 2008 VOL 319 SCIENCE www.sciencemag.org574 POLICYFORUM combined with opera- tions /media/loftslag/Milly_etal-2008-Stationarity-dead-Science.pdf

• 22. vonKorff_etal-2010

  finished, and possibly tested before implementation starts (Bots 2007). Following Bots (2007), we note that the word “design” can denote an activity as well as a product. In this article, design as a product is synonymous with the participation plan (point y). This plan is based on design as an activity, represented here by the space between points x and y. What needs to happen in this phase (x /media/loftslag/vonKorff_etal-2010.pdf

• 23. D2.3_CES_Prob_fcsts_GCMs_and_RCMs

  climate changes between the CMIP3 and ENSEMBLES simulations 15 4. Impact of RCM data on forecasts of climate change 18 5. Probabilistic projections of temperature and precipitation change 24 5.1 Best estimates and uncertainty ranges of temperature and precipitation change 24 5.2 How probably will temperature increase (precipitation change) by at least X°C (Y%)? 28 6. Conclusions 34 References /media/ces/D2.3_CES_Prob_fcsts_GCMs_and_RCMs.pdf

• 24. Alam_Ashraful_CES_2010

  scenario Summer Winter Temp ▲6˚c ▲7˚c. Precip. +10% +30% CO N l d bl2 ear y ou e 11 Forest management principles 1 ) Basal area just before thinning Thinning threshold Energy wood Energy biomass a r e a ( m 2 h a - 1 thinningt i g B a s a l a Basal area just Remaining basal area threshold Dominant height (m) after thinning 12 Management regimes Changes in basal area thinning thresholds /media/ces/Alam_Ashraful_CES_2010.pdf

• 25. 2010_016

  the following five parameters were adjusted: (1) Storage coefficient of direct runoff kd; (2) storage coefficient of interflow ki; (3) drainage density d; (4) the fraction of surface runoff from snowmelt; and (5) the recession constant krec for the decreasing saturated hydraulic conductivity with increasing depth. For the groundwater flow, adjusted parameters (6–7) are the hydraulic conductivity in the X /media/ces/2010_016.pdf

• 26. IPPC-2007-ar4_syr

  Pateh Jallow, Luc4ka Kajfez4-Bogataj, Neil Leary, Hoesung Lee, David Wratt Climate Change 2007: Synthesis Report Synthesis Report An Assessment of the Intergovernmental Panel on Climate Change This underlying report, adopted section by section at IPCC Plenary XXVII (Valencia, Spain, 12-17 November 2007), represents the formally agreed statement of the IPCC concerning key findings /media/loftslag/IPPC-2007-ar4_syr.pdf

• 27. VI_2015_007

  with the same method used to estimate qR(D;T ), but instead of pooling AMF series for a given duration D from different sites, the estimation is made individually for each site i by pooling AMF series for different durations D. The index flood, µi(D), is modelled at each site i as a continuous function of D, as follows: 12 µi(D) = µi 1+(D=Di)li ; (6) where µi, Di and li are basin dependent parameters /media/vedurstofan/utgafa/skyrslur/2015/VI_2015_007.pdf

• 28. Guidelines2-for-rapporteurs

  G u i n e a B a r r i e n to s P a t r i c k D r i s c o l l A n j a W e j s T o mm y C h a n K a r o l i i n a P i l l i - S i h v o l a J u s s i Y l h ä i s i K a r e n L u n d g r e n V ä i n ö N u r m i J i a o X i H a n s - P a u l V e l e m a p l e n a r y 1 ( o p e n i n g ) X s e s s i o n 1 . 1 X s e s s i o n 1 . 2 X s e s s i o n 1 . 3 X s e s s i o n 1 /media/loftslag/Guidelines2-for-rapporteurs.pdf

• 29. Group5-Stakeholders_involvement

  - m a k e r P u b l i c S t ron g Go v ernanc e I n s u re r s Pri v a t e S t ron g M ar k e t S c ie n t i f i c e x per t s ( g eo s c ie n c e s , e c o n o m i c s , s o c iolog y , p s y c hol o g y ) Publi c / pri v a t e - - I nd u s t ri e s Pri v a t e S t ron g M ar k e t W a t e r s upplie r P u b l i c S t ron g M ar k e t F ar m er s /media/loftslag/Group5-Stakeholders_involvement.pdf

• 30. Journal_of_Hydrology_Veijalainen_etal

  in spring (March–June) floods was 15–40% by 2070–2099, whereas the cor- responding floods in other seasons increased 12–40%. Decreases in the 100-year floods occurred by 2070–2099 in areas dominated by spring snowmelt floods in northern and most parts of central Fin- land because increased temperatures caused snow accumulation to decrease (Figs. 6 and 7). Decreases were largest and most consis /media/ces/Journal_of_Hydrology_Veijalainen_etal.pdf