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Biblioteca(s): |
Biblioteca Rui Tendinha. |
Data corrente: |
02/04/2015 |
Data da última atualização: |
02/04/2015 |
Autoria: |
BLACK, C. A. (Ed.). |
Título: |
Methods of soil analysis : physical and mineralogical properties, including statistics of measurement and sampling. |
Ano de publicação: |
1965 |
Fonte/Imprenta: |
Madison: ASTM; ASA, 1965. |
Volume: |
v. 1. |
Páginas: |
770p. |
Descrição Física: |
il. |
Série: |
(ASA. Agronomy, 9). |
Idioma: |
Inglês |
Conteúdo: |
v. 1 - Errors of observation; Bias; Extraneous values; Operator variation; Sampling; Calibration; Water content ; Physical condition of water in soil; Soil suction measurements with tensiometers; Heat of immersion; Hydraulic head; Rate of water intake in the field; Laboratory measurement of hydraulic conductivity of saturated soil; Field measurement of hydraulic conductivity below a water table; Field measurement of hydraulic conductivity above a water table; Laboratory measurement of hydraulic conductivity of unsaturated soil; Water diffusivity; Water capacity; Water availabilty; Evapotranspiration; Porosity; Composition of soil atmosphere; Gas movement; Temperature; Heat capacity and specific heat; Heat transfer; Reflectivity; Long-wave radiation; Particle density; Bulk density; Consistency; Stress distribution; Shear strength; Volume change; Modulus of rupture; Penetrometer measurements; Bearing capacity; Sixe distribution of agregates; Aggregate stability; Air-to-water permeability ratio; Specific surface; Particle fractionation and particle-size analysis; Preteatment for mineralogical analysis; Free oxides, hydroxides and amorphus aluminosilicates; Petrographic microscope techniques; Electron microscope techniques; Electron-diffraction techniques for mineral identification; X-ray diffraction techniques for mineral identification and mineralogical composition; Thermal analysis techniques for mineral identification and mineralogical composition; Infrared spectrometry; v. 2 - Elemental analysis by x-ray emission spectrography; Elemental analysis by optical emission spectrography; Elemental analysis by flame photometry; Absorption spectrophotometry; Elemental analysis by polarography; Catio-exchange capacity; Total exchangeable bases; Exchange acidity; Hydrogen-lon activity; Lime requeriment; Soluble salts; Fusion with sodium carbonate for total elemnetal analysis; Silicon; Iron; Titanium; Aluminum; Calcium and magnesium Manganese; Digestion with hydrofluoric and perchloric acids for total potassium and sodium; Potassium; Sodium; Phosporus; Molybdenum; Boron; Cobalt; Copper; Zinc; Sulfur; Selenium; Chlorine and bromine; Fluorine; Total nitrogen; Inorganic forms of nitrogen; Organic forms of nitrogen; Isotope-ratio analysis of nitrogen in nitrogen-15 tracer investigations; Gaseous forms of nitrogen; Nitrogen availability indexes; Total carbon; Organic carbon; Carbonate; Organic matter; Partial extraction of organic matter; Gross chemical fractionation of organic matter; Inositol hexaphosphate; Amino sugars; Amino acids; Microbial populations by direct microscopy; Agar-plate method for total microbial count; Most-probable-number method for microbial populations; Aerobic spore-forming bacteria; Nitrifying bacteria; Denitrifying bacteria; Rhizobia; Azotobacter; Actinomycetes; Fungi; Algae; Protozoa; Nematodes; Mites and other microarthropods; Enzymes; Microbial respiration. Menosv. 1 - Errors of observation; Bias; Extraneous values; Operator variation; Sampling; Calibration; Water content ; Physical condition of water in soil; Soil suction measurements with tensiometers; Heat of immersion; Hydraulic head; Rate of water intake in the field; Laboratory measurement of hydraulic conductivity of saturated soil; Field measurement of hydraulic conductivity below a water table; Field measurement of hydraulic conductivity above a water table; Laboratory measurement of hydraulic conductivity of unsaturated soil; Water diffusivity; Water capacity; Water availabilty; Evapotranspiration; Porosity; Composition of soil atmosphere; Gas movement; Temperature; Heat capacity and specific heat; Heat transfer; Reflectivity; Long-wave radiation; Particle density; Bulk density; Consistency; Stress distribution; Shear strength; Volume change; Modulus of rupture; Penetrometer measurements; Bearing capacity; Sixe distribution of agregates; Aggregate stability; Air-to-water permeability ratio; Specific surface; Particle fractionation and particle-size analysis; Preteatment for mineralogical analysis; Free oxides, hydroxides and amorphus aluminosilicates; Petrographic microscope techniques; Electron microscope techniques; Electron-diffraction techniques for mineral identification; X-ray diffraction techniques for mineral identification and mineralogical composition; Thermal analysis techniques for mineral identification and mineralogical composition; Infrared spectrometry; v. ... Mostrar Tudo |
Palavras-Chave: |
Agua; Análise; Analysis; Chemicophysical properties; Condutividade hidraulica; Estatística; Evapotranspiracao; Evapotranspiration; Fisica; Hidraulic conductivity; Mineralogia; Quimica do solo; Soils; Solo; Water. |
Categoria do assunto: |
-- |
Marc: |
LEADER 03779nam a2200313 a 4500 001 1006084 005 2015-04-02 008 1965 bl uuuu 00u1 u #d 100 1 $aBLACK, C. A. 245 $aMethods of soil analysis$bphysical and mineralogical properties, including statistics of measurement and sampling. 260 $aMadison: ASTM; ASA$c1965 300 $a770p. v. 1.$cil. 490 $a(ASA. Agronomy, 9).$vv. 1. 520 $av. 1 - Errors of observation; Bias; Extraneous values; Operator variation; Sampling; Calibration; Water content ; Physical condition of water in soil; Soil suction measurements with tensiometers; Heat of immersion; Hydraulic head; Rate of water intake in the field; Laboratory measurement of hydraulic conductivity of saturated soil; Field measurement of hydraulic conductivity below a water table; Field measurement of hydraulic conductivity above a water table; Laboratory measurement of hydraulic conductivity of unsaturated soil; Water diffusivity; Water capacity; Water availabilty; Evapotranspiration; Porosity; Composition of soil atmosphere; Gas movement; Temperature; Heat capacity and specific heat; Heat transfer; Reflectivity; Long-wave radiation; Particle density; Bulk density; Consistency; Stress distribution; Shear strength; Volume change; Modulus of rupture; Penetrometer measurements; Bearing capacity; Sixe distribution of agregates; Aggregate stability; Air-to-water permeability ratio; Specific surface; Particle fractionation and particle-size analysis; Preteatment for mineralogical analysis; Free oxides, hydroxides and amorphus aluminosilicates; Petrographic microscope techniques; Electron microscope techniques; Electron-diffraction techniques for mineral identification; X-ray diffraction techniques for mineral identification and mineralogical composition; Thermal analysis techniques for mineral identification and mineralogical composition; Infrared spectrometry; v. 2 - Elemental analysis by x-ray emission spectrography; Elemental analysis by optical emission spectrography; Elemental analysis by flame photometry; Absorption spectrophotometry; Elemental analysis by polarography; Catio-exchange capacity; Total exchangeable bases; Exchange acidity; Hydrogen-lon activity; Lime requeriment; Soluble salts; Fusion with sodium carbonate for total elemnetal analysis; Silicon; Iron; Titanium; Aluminum; Calcium and magnesium Manganese; Digestion with hydrofluoric and perchloric acids for total potassium and sodium; Potassium; Sodium; Phosporus; Molybdenum; Boron; Cobalt; Copper; Zinc; Sulfur; Selenium; Chlorine and bromine; Fluorine; Total nitrogen; Inorganic forms of nitrogen; Organic forms of nitrogen; Isotope-ratio analysis of nitrogen in nitrogen-15 tracer investigations; Gaseous forms of nitrogen; Nitrogen availability indexes; Total carbon; Organic carbon; Carbonate; Organic matter; Partial extraction of organic matter; Gross chemical fractionation of organic matter; Inositol hexaphosphate; Amino sugars; Amino acids; Microbial populations by direct microscopy; Agar-plate method for total microbial count; Most-probable-number method for microbial populations; Aerobic spore-forming bacteria; Nitrifying bacteria; Denitrifying bacteria; Rhizobia; Azotobacter; Actinomycetes; Fungi; Algae; Protozoa; Nematodes; Mites and other microarthropods; Enzymes; Microbial respiration. 653 $aAgua 653 $aAnálise 653 $aAnalysis 653 $aChemicophysical properties 653 $aCondutividade hidraulica 653 $aEstatística 653 $aEvapotranspiracao 653 $aEvapotranspiration 653 $aFisica 653 $aHidraulic conductivity 653 $aMineralogia 653 $aQuimica do solo 653 $aSoils 653 $aSolo 653 $aWater
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Registro original: |
Biblioteca Rui Tendinha (BRT) |