02028nas a2200169 4500008004100000022001400041245007600055210006900131260001600200520142000216100001901636700002601655700001801681700002301699700002601722856011001748 2022 eng d a1606-974900aWater-food-energy nexus for transboundary cooperation in Eastern Africa0 aWaterfoodenergy nexus for transboundary cooperation in Eastern A cMar-01-20223 aEstablishing cooperation in transboundary rivers is challenging especially with the weak or non-existent river basin institutions. A nexus-based approach is developed to explore cooperation opportunities in transboundary river basins while considering system operation and coordination under uncertain hydrologic river regimes. The proposed approach is applied to the Nile river basin with a special focus on the Grand Ethiopian Renaissance Dam (GERD), assuming two possible governance positions: with or without cooperation. A cooperation mechanism is developed to allocate additional releases from the GERD when necessary, while a unilateral position assumes that the GERD is operated to maximize hydropower generation regardless of downstream users' needs. The GERD operation modes were analysed considering operation of downstream reservoirs and varying demands in Egypt. Results show that average basin-wide hydropower generation is likely to increase by about 547 GWh/year (1%) if cooperation is adopted when compared to the unilateral position. In Sudan, hydropower generation and water supply are expected to enhance in the unilateral position and would improve further with cooperation. Furthermore, elevated low flows by the GERD are likely to improve the WFE nexus outcomes in Egypt under full cooperation governance scenario with a small reduction in GERD hydropower generation (2,000 GWh/year (19%)). 1 aElsayed, Hamdy1 aDjordjević, Slobodan1 aSavic, Dragan1 aTsoukalas, Ioannis1 aMakropoulos, Christos uhttps://iwaponline.com/ws/article/doi/10.2166/ws.2022.001/86211/Water-food-energy-nexus-for-transboundary02741nas a2200193 4500008004100000022001400041245010300055210006900158260001600227300001300243490000800256520202700264100001902291700002602310700002302336700002302359700002602382856013902408 2020 eng d a0733-949600aThe Nile Water-Food-Energy Nexus under Uncertainty: Impacts of the Grand Ethiopian Renaissance Dam0 aNile WaterFoodEnergy Nexus under Uncertainty Impacts of the Gran cJan-11-2020 a040200850 v1463 a
Achieving a water, food, and energy (WFE) nexus balance through policy interventions is challenging in a transboundary river basin because of the dynamic nature and intersectoral complexity that may cross borders. The Nile basin is shared by a number of riparian countries and is currently experiencing rapid population and economic growth. This has sparked new developments to meet the growing water, food, and energy demands, alleviate poverty, and improve the livelihood in the basin. Such developments could result in basinwide cooperation or trigger conflicts among the riparian countries. A system dynamics model was developed for the entire Nile basin and integrated with the food and energy sectors in Egypt to investigate the future of the WFE nexus with and without the Grand Ethiopian Renaissance Dam (GERD) during filling and subsequent operation using basinwide stochastically generated flows. Different filling rates from 10% to 100% of the average monthly flow are considered during the filling process. Results suggest that the GERD filling and operation would affect the WFE nexus in Egypt, with the impact likely to be significant if the filling process occurred during a dry period. Food production from irrigated agriculture would be reduced by 9%–19% during filling and by about 4% during GERD operation compared with the case without it. The irrigation water supply and hydropower generation in Sudan will be reduced during the filling phase of the GERD, but this is expected to be improved during the dam operation phase as a result of the regulation afforded by the GERD. Ethiopian hydropower generation is expected to be boosted by the GERD during the filling and operation of the dam, adding an average of 15,000 GWh/year15,000 GWh/year once GERD comes online. Lastly, the results reveal the urgency of cooperation and coordination among the riparian countries to minimize the regional risks and maximize the regional rewards associated with the GERD.
1 aElsayed, Hamdy1 aDjordjević, Slobodan1 aSavić, Dragan, A.1 aTsoukalas, Ioannis1 aMakropoulos, Christos uhttp://ascelibrary.org/doi/10.1061/%28ASCE%29WR.1943-5452.0001285http://ascelibrary.org/doi/pdf/10.1061/%28ASCE%29WR.1943-5452.000128500835nas a2200241 4500008004100000245009200041210006900133260001600202490000600218100001600224700002100240700001800261700001500279700001800294700001500312700001400327700001600341700001900357700001500376700001400391700001500405856017300420 2016 eng d00aIntermediate tree cover can maximize groundwater recharge in the seasonally dry tropics0 aIntermediate tree cover can maximize groundwater recharge in the cJan-04-20160 v61 aIlstedt, U.1 aTobella, Bargu?s1 aBazi?, H., R.1 aBayala, J.1 aVerbeeten, E.1 aNyberg, G.1 aSanou, J.1 aBenegas, L.1 aMurdiyarso, D.1 aLaudon, H.1 aSheil, D.1 aMalmer, A. uhttp://www.nature.com/articles/srep21930http://www.nature.com/articles/srep21930.pdfhttp://www.nature.com/articles/srep21930.pdfhttp://www.nature.com/articles/srep2193002611nas a2200277 4500008003900000022001400039245008700053210006900140520178500209100001401994700001402008700001202022700001402034700001402048700001502062700001402077700001402091700001602105700001402121700001302135700001602148700002002164700001802184700001602202856011502218 2014 d a1091-649000aMultiscale digital Arabidopsis predicts individual organ and whole-organism growth0 aMultiscale digital Arabidopsis predicts individual organ and who3 aUnderstanding how dynamic molecular networks affect whole-organism physiology, analogous to mapping genotype to phenotype, remains a key challenge in biology. Quantitative models that represent processes at multiple scales and link understanding from several research domains can help to tackle this problem. Such integrated models are more common in crop science and ecophysiology than in the research communities that elucidate molecular networks. Several laboratories have modeled particular aspects of growth in Arabidopsis thaliana, but it was unclear whether these existing models could productively be combined. We test this approach by constructing a multiscale model of Arabidopsis rosette growth. Four existing models were integrated with minimal parameter modification (leaf water content and one flowering parameter used measured data). The resulting framework model links genetic regulation and biochemical dynamics to events at the organ and whole-plant levels, helping to understand the combined effects of endogenous and environmental regulators on Arabidopsis growth. The framework model was validated and tested with metabolic, physiological, and biomass data from two laboratories, for five photoperiods, three accessions, and a transgenic line, highlighting the plasticity of plant growth strategies. The model was extended to include stochastic development. Model simulations gave insight into the developmental control of leaf production and provided a quantitative explanation for the pleiotropic developmental phenotype caused by overexpression of miR156, which was an open question. Modular, multiscale models, assembling knowledge from systems biology to ecophysiology, will help to understand and to engineer plant behavior from the genome to the field.1 aChew, Y H1 aWenden, B1 aFlis, A1 aMengin, V1 aTaylor, J1 aDavey, C L1 aTindal, C1 aThomas, H1 aOugham, H J1 aReffye, P1 aStitt, M1 aWilliams, M1 aMuetzelfeldt, R1 aHalliday, K J1 aMillar, A J uhttp://www.pnas.org/content/early/2014/08/27/1410238111.full.pdf+html?sid=66edb45d-8e99-4d84-a072-a47729a65e1400675nas a2200145 4500008004100000022001300041245009300054210006900147260001600216300001100232490000800243100002500251700002000276856023300296 2011 eng d a0022169400aSpatiotemporal dynamics of landscape pattern and hydrologic process in watershed systems0 aSpatiotemporal dynamics of landscape pattern and hydrologic proc cJan-06-2011 a1 - 120 v4041 aRandhir, Timothy, O.1 aTsvetkova, Olga uhttps://linkinghub.elsevier.com/retrieve/pii/S0022169411001880https://api.elsevier.com/content/article/PII:S0022169411001880?httpAccept=text/xmlhttps://api.elsevier.com/content/article/PII:S0022169411001880?httpAccept=text/plain00709nas a2200205 4500008003900000245009900039210006900138100002000207700002500227700002500252700002400277700002600301700001800327700002100345700001800366700002200384700002300406700002000429856005400449 2008 d00aCONCEPT MAPS FOR COMBINING HARD AND SOFT SYSTEM THINKING IN THE MANAGEMENT OF SOCIO-ECOSYSTEMS0 aCONCEPT MAPS FOR COMBINING HARD AND SOFT SYSTEM THINKING IN THE 1 aSalerno, Franco1 aCuccillato, Emanuele1 aMuetzelfeldt, Robert1 aGiannino, Francesco1 aBajracharya, Birendra1 aCaroli, Paolo1 aViviano, Gaetano1 aStaiano, Anna1 aFabrizio Cartenì1 aMazzoleni, Stefano1 aTartari, Gianni uhttp://cmc.ihmc.us/cmc2008papers/cmc2008-p190.pdf02788nas a2200265 4500008003900000245013300039210006900172260001100241300001200252490000800264520188500272653001602157653002202173653002002195653002102215653001202236100001502248700002402263700002402287700002002311700002002331700002602351700001802377856012702395 2007 d00aA box model of carrying capacity for suspended mussel aquaculture in Lagune de la Grande-Entrée, Iles-de-la-Madeleine, Québec 0 abox model of carrying capacity for suspended mussel aquaculture c1/2007 a193-2060 v2003 aAn object-oriented model of environment–mussel aquaculture interactions and mussel carrying-capacity within Lagune de la Grande-Entrée (GEL), Iles-de-la-Madeleine, Québec, was constructed to assist in development of sustainable mussel culture in this region. A multiple box ecosystem model for GEL tied to the output of a hydrodynamic model was constructed using Simile software, which has inherent ability to represent spatial elements and specify water exchange between modelled regions. Mussel growth and other field data were used for model validation. Plackett–Burman sensitivity analysis demonstrated that a variety of bioenergetic parameters of zooplankton and phytoplankton submodels were important in model outcomes. Model results demonstrated that mussel aquaculture can be further developed throughout the lagoon. At present culture densities, phytoplankton depletion is minimal, and there is little food limitation of mussel growth. Results indicated that increased stocking density of mussels in the existing farm will lead to decreased mass per individual mussel. Depending on the location of new farm emplacement within the lagoon, implementation of new aquaculture sites either reduced mussel growth in the existing farm due to depletion of phytoplankton, or exhibited minimum negative impact on the existing farm. With development throughout GEL, an excess of phytoplankton was observed during the year in all modelled regions, even at stocking densities as high as 20 mussels m−3. Although mussels cultured at this density do not substantially impact the ecosystem, their growth is controlled by the flux of phytoplankton food and abundance of zooplankton competitors. This model provides an effective tool to examine expansion of shellfish farming to new areas, balancing culture location and density.
10aAquaculture10aCarrying-capacity10aEcosystem model10aMagdalen Islands10aMussels1 aGrant, Jon1 aCurran, Kristian, J1 aGuyondet, Thomas, L1 aTita, Guglielmo1 aBacher, Cédric1 aKoutitonsky, Vladimir1 aDowd, Michael u//www.simulistics.com/publications/box-model-carrying-capacity-suspended-mussel-aquaculture-lagune-de-la-grande-entr-e-ile00781nas a2200241 4500008003900000022001000039245010700049210006900156100001500225700001600240700001300256700001600269700001400285700001300299700001300312700001800325700001600343700001600359700002100375700001200396700001400408856011700422 2007 d aHTA 900aThe clinical and cost effectiveness of screening for meticillin-resistant Staphylococcus aureus (MRSA)0 aclinical and cost effectiveness of screening for meticillinresis1 aK, Ritchie1 aI, Bradbury1 aJ, Craig1 aJ, Eastgate1 aL, Foster1 aH, Kohli1 aK, Iqbal1 aK, MacPherson1 aT, McCarthy1 aH, McIntosh1 aE, Nic Lochlainn1 aM, Reid1 aJ, Taylor uhttp://www.healthcareimprovementscotland.org/his/idoc.ashx?docid=4cd58ffa-afdb-45bb-b0d5-22782b3f327d&version=-1