Where is my water walkthrough 6 18

Growth performance of 3-g Anguilla bicolor bicolor at different density. Scabra, A. Production performance of Anguilla bicolor bicolor with the addition of CaCO 3 into culture media. Handajani, H. Evaluation of digestibility and ammonia excretion of fish meal and fish silage fed to juvenile Indonesian shortfin eel Anguilla bicolor. AACL Bioflux 11 , — Anguilla japonica. In: J. Xie, V. Crespi, M. CD-ROM multilingual , Handoyo, B. Food Sec.

Mordenti, O. Growth performances and natural diet of European eel Anguilla anguilla L. Methling, C. Pop up satellite tags impair swimming performance and energetics of the European eel Anguilla anguilla.

Pengembangan sumber daya ikan sidat Anguilla spp. Baskoro Eds. IPB Press, Usui, A. Eel culture. Production performance and physiology response of Anguilla bicolor bicolor rearing with a wet, damp and dry system. Iktiologi Indones. Taufiq-Spj, N. The use of water exchange for feeding rate and growth promotion of shortfin eel Anguilla bicolor bicolor in recirculating water system.

IOP Publishing Ltd. The use of different water volume to measure the growth and survival rates of Anguilla bicolor caught from Nusawungu riverines, Cilacap, Indonesia. AACL Bioflux 13 , — Goddek, S.

Aquaponics food production systems-combined aquaculture and hydroponic production technologies for the future Springer, Touliatos, D. Vertical farming increases lettuce yield per unit area compared to conventional horizontal hydroponics. Food Energy Secur. Muller, A. Can soil-less crop production be a sustainable option for soil conservation and future agriculture.

Land Use Policy. Delaide, B. Plant and fish production performance, nutrient mass balances, energy and water use of the PAFF Box, a small-scale aquaponic system. Jeffs, A. Sea-cage culture of the spiny lobster Jasus edwardsii in New Zealand. Shelley, C. Mud crab aquaculture—A practical manual.

Nutrient requirements of warmwater fishes. National Academy Science, Washington Blaxhall, P. Routine haematological methods for use with fish blood. Fish Biol. Wedemeyer, G. Clinical methods for the assessment of the effect environmental stress on fish health. Anderson, D. Phuket, Thailand. Angka, S.

Departemen Pendidikan dan Kebudayaan. Direktorat Jenderal Pendidikan Tinggi. Institut Pertanian Bogor, Bogor Standard Methods for the Examination of the Water and Wastewater. Tseng, K. The ammonia removal cycle for a submerged biofilter used in a recirculating eel culture system. Hartnoll, R. In: Able, L. Ed The biology of Crustacea.

Academic Press, New York, Portalia, N. The growth and survival rate in lettuce aquaponic systems Latuca sativa of eels in various stocking densities of eel Monopterus albus. IOP Conf. Earth Environ. Pemeliharaan ikan sidat dengan sistem air bersirkulasi. Ilmu Pertanian Indones. Karipoglou, C.

Growth rate and feed conversion efficiency of intensively cultivated European eel Anguilla Anguilla L. Baras, E. Interactions between temperature and size on the growth, size heterogeneity, mortality, and cannibalism in cultured larvae and juveniles of the Asian catfish Pangasianodon hypophthalmus Sauvage. Gracia, L. Effects of salinity on physiological conditions in juvenile common snook Centropomus undecimalis. Fekri, L. The effect of temperature on the physiological condition and growth performance of freshwater eel elver Anguilla bicolor bicolor McClelland, Saputra, A.

Production performance of eel Anguilla bicolor bicolor with the addition of calcium carbonate. Barton, B. Physiological changes in fish from stress in aquaculture with emphasis on the response and effects of corticosteroids. Fish Dis. Stress in finfish: past, present, and future—A historical perspective. In: Iwama, G. Fish stress and health in aquaculture Cambridge University Press, Cambridge, Begg, K. Endocrine and metabolic responses to stress in a laboratory population of the tropical damselfish Acanthochromis polyacanthus.

Rottmann, R. The role of stress in fish disease. SRAC Publ. Sadler, J. Blood oxygen transport, rheology and hematological responses to confinement stress in diploid and triploid Atlantic salmon, Salmo salar.

Aquaculture , — Campbell, T. Blood biochemistry in lower vertebrates. Wagner, T. Blood chemistry correlates of nutritional condition, tissue damage, and stress in migrating juvenile chinook salmon Oncorhynchus tshawytscha. Tavares-Dias, M. Haematological and biochemical reference intervals for farmed channel catfish. Ajeniyi, S.

Urea and creatinine of Clarias Gariepinus in three different commercial ponds. Arthanari, M. Assessment of the haematological and serum biochemical parameters of three commercially important freshwater fishes in river Cauvery Velur, Namakkal district, Tamil Nadu, India. Fazio, F. Fish hematology analysis as an important tool of aquaculture: a review. Rahardjo, M. Lubuk Agung, Bandung Indonesia, Siddiqui, N. Seasonal, size and comparative study of plasma proteins of four air breathing freshwater fishes.

Indian Acad. Sci 85 , — CAS Google Scholar. Mlay, P. Total plasma proteins and hemoglobin levels as affected by worm burden in freshwater fish in Morogoro, Tanzania. Livestock Res. Rural Dev. Sancho, E. European eel Anguilla anguilla plasma biochemistry alerts about propanil stress.

Tan, C. Effects of stocking density on growth, body composition, digestive enzyme levels and blood biochemical parameters of Anguilla marmorata in a recirculating aquaculture system. Kulkarni, R. Blood creatinine and some enzyme levels in four species of indian carp fishes collected from a local aquatic body. Gabriel, U. Plasma enzymes in Clarias gariepinus exposed to chronic levels of Roundup glyphosate.

Erlacher-Reid, C. Plasma biochemistry values of recently wild-caught purple mouth moray eels Gymnothorax vicinus. Zoo Wildl. Haematological and blood biochemical changes in the fresh water fish, Notopterus notopterus Pallas exposed to acidic medium. Hidayaturrahmah, H. Muhamati, M. Sripriya, R. Seasonal variation of serum enzymes of Indian freshwater eel Anguila bicolor Mcclelanand. Studies 3 , 50—54 Satheeshkumar, P.

Comparative investigation on haematological and biochemical studies on wild marine teleost fihes from Vellar estuary, southeast coast of India.

Path 21 , — Sahan, A. Comparative study of some haematological parameters in European eel Anguilla anguilla L. Ponsen, S. Comparative hematological values, morphometric and morphological observation of the blood cell in captured and culture Asian eel, Monopterus albus.

Sasongko, H. Effect of acute administration of eel Anguilla bicolor bicolor oil to hematological parameters in mice. East Jakarta, Indonesia, Clauss, T. Hematologic disorders of fish, veterinary clinics of North America. Ren, D. A genome scan for quantitative trait loci affecting male reproductive traits in a White Duroc Chinese Erhualian resource population. Caruso, G. Haematological, biochemical and immunological parameters as stress indicators in Dicentrarchus labrax and Sparus aurata farmed in off-shore cages.

Haenen, O. Pertumbuhan elver Anguilla bicolor McClelland, pasca pembantutan yang dipelihara di media semi alami. Billett, H. Hemoglobin and hematocrit. Clinical methods: the history, physical, and laboratory examinations. Butterworths, Boston, C Toxicol. Gross, W. Avian Dis. Boon, J. The effect of different infection levels with infective larvae of Anguillicola crassus on haematological parameters of European eel Anguilla anguilla.

Aquaculture 87 , — Kurniawan, K. Pengaruh ekstrak daun sirsak Annona muricata L. Sangkuriang yang diinfeksi bakteri Aeromonas hydrophila. Johansson-Sjobeck, M. Effects of inorganic lead on delta-aminolevulinic acid dehydratase activity and haematological variables in the rainbow trout, Salmo gairdneri. Lee, N. Tang, Y. Acute toxicity of divalent mercury ion to Anguilla japonica from seawater and freshwater aquaculture and its effects on tissue structure. On the occasion of the High-Level Meeting, countries also joined efforts to issue a cross regional statement on water.

The Statement was signed by countries, welcomed the Meeting and acknowledged the consultative process. Panel 1: Data and Information and Governance In this interactive discussion, panelists presented concrete acceleration actions for water and sanitation focusing on two of the accelerators set forth in the SDG 6 Global Acceleration Framework : data and information and governance. Demonstrating how to scale-up international cooperation and accelerate concrete action to meet the water-related goals and targets of the Agenda.

Panel 2: Financing, Innovation and Capacity Building In this interactive discussion, panellists presented acceleration actions for water and sanitation focusing on three of the accelerators set forth in the SDG 6 Global Acceleration Framework : financing, innovation and capacity development. They demonstrated how to scale-up international cooperation and accelerate concrete action in these areas to meet the water-related goals and targets of the Agenda.

Thereafter, the was continued and additional statements will be delivered in the General Assembly on World Water Day, 22 March. Learn More ». Availability Range: Year [ ]. The Custom Country option allows you to create your own customized country groups from country selection panel.

Click on Custom Country. A new box will open. Click on the desired countries listed in the country selection panel. Enter the group name in the Enter Group Title box and click on Add. The new country group will be added to the right panel. To edit an existing country group, click on the Edit link in the current selection panel in right side.

Now you can add new countries or remove the countries to an existing customized group. Click on the additional countries listed in the country selection panel. To remove the country from the group double click on the country or select the country and click Remove button.

Click on Add to save changes to your customized group. Note: Editing the group name will create a new custom group. You can remove the customized group by clicking on the Delete button in the current selection panel in right side.

Click on Custom Indicators. Choose input indicators by clicking on the desired series in the panel and use the calculator functions to construct your custom indicator formula. For example, for a series that shows the percentage of female population, double-click on the series Population, Female.

Then double click on the series Population, Total. Give a name to your custom indicator and click on Add. To have "not available" values in the database treated as zero within your formula, use the NA function. This page is in. World Development Indicators.

Database Available. Country Available. All Countries Aggregates. Select all Unselect all Invert selection. Filter Hierarchy. Showing - of. Sort Remove all. Create Custom Group. Additional Options Metadata Optional. Display Country List. Clear Add. Select region Mapping purpose. Select income Mapping purpose. Series Available. Create Custom Indicator.

Display Series List. Clr Add Validate. Aggregation Rule Defines the methodologies to be used when deriving custom aggregates. Learn More » Define Aggregation Rule. Apply Same rule for all indicators Set rule for each indicator. After the formula is complete, you can verify its syntax by clicking the Validate button. Later if you wish to see or change the formula for an indicator you have created, from the right side current selection panel click the Edit.

Use the DEL key to delete the last entry and step backwards to edit the formula. Click the Clear button to erase the custom indicator formula. Note: Validation will verify a formula for proper syntax only. Derived indicators may yield inappropriate results and caution should be observed. You can remove the customized indicators by clicking on the Delete button in the current selection panel in right side.

The Aggregation Rules function defines the methodologies to be used when deriving custom aggregates. These rules apply only to custom country groups you have created. They do not apply to official groups presented in your selected database. For each selected series, choose your Aggregation Rule and Weight Indicator if needed from the corresponding drop-down boxes.

Check the Apply to all box if you wish to use the same methodology for all selected series. Aggregation Rules include: 1. Max: Aggregates are set to the highest available value for each time period. Mean: Aggregates are calculated as the average of available data for each time period.

Mean Aggregates are calculated as the average of available data for each time period. Values are not shown if more than one third of the observations in the series are missing.

Median: Aggregates are calculated as the median of available data for each time period.