Principles and Practice of Agricultural Analysis

INDEX.

A
Absorption, cause in soils, 119
- determination, 287
- of heat, by soils, 115
  - water, by soils, determination, 136–143
Acetic acid, solvent for soils, 344
Acid phenyl sulfate, reagent for nitric acid, 554, 555
- soluble materials, extraction, 455
Adobe, analyses, 58
- soils, 57
Aeolian rocks, 38
Air, absorption, 286
- action, 51
Albuminoid ammonia, estimation, 572
Alkali salts, composition, 56
Alkalies and alkaline earths, estimation, 384
Alkaline soils, 53–55
Alumina, estimation, 354, 357, 362
Aluminum, 17
- -mercury couple for nitric acid, 542
- microchemical examination, 266
Ammonia, determination of free and albuminoid, 570–573
- estimation, 448–452
- formation in soils, 429
- magnesia distillation process, 450
- nitrification, 466
- production, by microbes, 464
Ammonium chlorid, solvent for soils, 343
Apocrenic acid, 62
Apparatus for soil sampling, 82–86
Aqueous rocks, 32–38
- vapor absorption, 283, 284
Armsby, soil absorption, 121
Assimilable phosphoric acid, method of Dyer, 410
Atomic masses, table, 3
Atwater, fish nitrogen, 14
Authorities cited in Part Eighth, 593
- Fifth, 300
- First, 63, 64
- Fourth, 279–281
- Second, 93, 94
- Seventh, 573–575
- Sixth, 456–458
- Third, 169, 170
B
Bacteria, action, 50
Barium, 23
- microchemical examination, 265
Barus, theory of flocculation, 177–180
Beaker elutriation, comparison with Hilgard’s method, 239
- method, comparison with Schloesing’s, 241
Belgian methods for soil extracts, 361–363
Bennigsen, method of silt analysis, 194
Berlin-Schöne method, 194
Bernard, calcimeter, 339
Berthelot and André, determination of residual water, 308
- method of water determination, 305
- nature of nitrogen in soils, 430–434
- odoriferous matters in soils, 97
- phosphoric acid in soils, 411
Bigelow, solubility of digestion vessels, 348
Boric acid, 580, 581
Boron, 17
- estimation, 593
Boussingault and Lewey, method of determining absorption, 290
- method for nitric acid, 524–526
Braun’s separating liquid, 271
Bréon’s method, 272
Brewer, chemical action, 177
Brögger’s apparatus, 276
Brucin, reagent for nitric acid, 557
Bulk analysis, 365–367
C
Calcium, 18
- microchemical examination, 264
Caldwell, preliminary treatment of soil samples, 88
Capillary attraction, determination, 145
- movement of water, 153
Carbazol, reagent for nitric acid, 548
Carbon, 5
- comparison of methods for estimating, 321
- dioxid, diffusion in soils, 297
  - estimation in water, 579
  - in soils, apparatus for estimating, 293
  - occurrence in soils, 289
  - solvent for soils, 343
- estimation of organic, 315
- oxidation with chromic acid, 316
  - permanganate, 318
Carbonates, Belgian method, 342
- deficiency in soils, 340
- estimation, 337
Carnot, method for manganese, 397
- phosphoric acid, 403
Chabrier, method for nitrous acid, 565
Chemical analysis of soils, 301–575
- - order of examination, 302
  - preliminary considerations, 301
- elements in soils, 2
Chevreul, ammonium phosphate in guanos, 7
Chile, nitrate deposits, 15, 16
Chlorin, 6
- estimation, 422
  - in water, 577
  - Mohr’s method, 424
  - Petermann’s method, 424
  - Wolff’s method, 423
Citric acid, solvent for soils, 344
Clarke, relative abundance of elements, 23
Classification of soils, 52
Clay, chemical nature, 232
- colloidal, 231
- mechanical determination, 242
- properties, 223
- separation, 230
- suspension, 176
Clayey soils, effect of boiling on texture, 244–246
- elutriation, 239
Cleavage of soil particles, 262
Coefficient of evaporation, determination, 144–146
Cohesion and adhesion of soils, 116, 117
Colloidal clay, estimation, 231
Color of rocks, 31
- soil, determination, 97
Colorimetric comparison, delicacy, 548, 559
Compact soils, 90
Conductivity of soils, 115
Copper, estimation, 591
- -zinc couple for nitric acid, 540, 542
Crenic acid, 61
Crum-Frankland process, 518
Crystal angles, measurement, 259
Culture media, composition, 468, 473, 474, 476, 479, 481, 483, 484, 486
- solid, 479, 481
D
Darton, Florida phosphates, 9
Davidson, origin of Florida phosphates, 7
Decay of rocks, 43–52
Deherain, measurement of percolation, 167–169
Desiccator, drying, 309
Devarda’s method for nitric acid, 534
- variation of Stoklassa, 535
Diffusion of gases, general conclusions, 299
Dietrich’s elutriator, 209
Digestion of soil, 456
- vessels, 347
Dilution method, experiments, 483, 485
Diphenylimid, reagent for nitric acid, 549
Diphenylamin, reagent for nitric acid, 553
Distillation, prevention of bumping, 441
Dobeneck, method of determining absorption, 287–290
Drainage, influence on porosity, 132
Durham, clay suspension, 176
Dyer, citric acid solution, 344
Dyer, method for assimilable phosphoric acid, 410
E
Earth worms, action, 49
Eldridge, Florida phosphates, 10
Elements, different, simultaneous estimation, 425
- relative abundance, 23
Elutriating tube, 236
Eruptive rocks, 41, 42
Estimation of gases in soils, 282–299
F
Ferric oxid, estimation, 353, 356, 357, 362, 399, 401
Fine soil, capacity for holding water, 135
Fish as fertilizer, 14
Flocculation, 171
- effect of chemical action, 177
- theory, 177
Floccules, destruction, 175
Florida phosphates, origin, 7–12
Fluorin, 17–24
Forchhammer, agricultural value of fucoids, 13
Frear, method of determining soil temperatures, 111
Freezing and thawing, 44
Fuchs and De Launy, origin of potash deposits, 21
Fuelling, determination of water absorption, 139
G
Gases, collection, 291
- methods of study, 283
- passage through the soil, 149, 150
  - determination, 150
- relation to soil composition, 282
Gasparin, method of silt analysis, 195
Gautier, occurrence of oldest phosphates, 7
Gelatin, culture, 471–473
- mineral, 473, 474
Gembloux station, method of soil solution, 350
German experiment stations, method of soil solution, 349
Glaciers, action, 45
Glucinic acid, 62
Goessmann, analysis of sea-weeds, 13
Gooch and Gruener, method for nitric acid, 546
- estimation of boric acid, 580
Goss, method for phosphoric acid, 416–418
Grandeau, method of estimating humus, 324
H
Hands, sterilization, 489
Hannén, diffusion of carbon dioxid in soils, 297
Harada’s apparatus, 275
Heinrich, determination of passage of gases through soils, 150
- - water absorption, 143
- method of determining cohesion, 116, 117
Henrici, determination of water capacity of soils, 143
Hilgard, alkaline soils, 55
- digestion vessels, 347
- humus estimation, 324
- hygroscopic coefficient, 284
- influence of surface tension, 174
- method for soil solution, 348
  - of silt analysis, 225
- methods of analysis of soil extract, 356–361
- preliminary examination of soils, 87
Hilgard’s elutriator, 226
- method, comparison with Osborne’s, 239
Hooker’s method for nitric acid, 548
Humic acid, 61, 62
- estimation, 331
Humus, 60
- combustion, 589
- estimation, 324
  - German method, 333
  - method of Pasturel, 336
    - Raulin, 334
    - Van Bemmelén, 332
  - summary of results, 330
- mineral contents, 589
Huston and McBride, humus estimation, 326
- method of determining soil absorption, 128
Hydrochloric acid, solvent for soils, 344
- strength, 345
- time of digestion, 345
- treatment of soil with cold, 350
Hydrofluoric acid, solvent for soils, 352
Hydrogen, 5
- estimation of organic, 323
Hygroscopic coefficient, determination, 284
I
Ignition, loss, 307
Ilosvay, nessler reagent, 573
Indiana, lysimeter of agricultural experiment station, 165
Indigo method for nitric acid, 524–531
Insoluble residue, analysis, 363
- Belgian method, 364
- Wolff’s method, 363
Interstitial space, determination, 134
Inverse capillarity, 146
Iron, 22
- and alumina, separation from phosphoric acid, 414
- French method, 399, 400
- method of Sachsse and Becker, 401–403
- microchemical examination, 266
J
Jenkins, analysis of sea-weeds, 13
Johnson, method for nitric acid, 556
K
Kaolin, estimation, 426–428
Kedzie, digestion vessels, 347
- influence of drainage, 132
King, apparatus for soil sampling, 82
- capillary movement of water, 153
- methods of water movement, 151
Knop, method of determining soil absorption, 128
Knop’s silt cylinder, 189
Knorr, apparatus for carbon dioxid, 337
Kostytchoff, origin of humus, 60
Kühn’s silt cylinder, 189
L
Lateral capillary flow, 153
Latitude, effect on decay of rocks, 46
Lead, estimation, 592
Lime, assimilable, 392
- estimation, 354, 357, 362, 365, 384, 386, 388–394
  - of active, 389
    - available, 390
- French method, 386, 388
- method of Halle station, 393, 394
- Russian method, 391
Lithium, microchemical examination, 264
Logarithmic constants, 254
Loges, humus estimation, 333
Loose soils, 89
Loughridge, time of digestion, 345, 346
Lunge and Lwoff, method for nitrous acid, 563
Lunge’s nitrometer, 519
- improved, 520–524
Lysimetry, 158, 165
Mc
McGowan’s method for nitric acid, 543
M
Magnesia, estimation, 354, 360, 362, 365, 384, 394, 396
- method of Halle station, 396
Magnesium, 18
- microchemical examination, 264
Magnet, separation of silt particles, 278
Manganese, 23
- estimation, 354, 360, 396, 397
- French method, 397–399
Marx, method for nitric acid, 526–528
Masure’s silt apparatus, 210
Matiére noire, 324
Mayer, determination of water absorption, 138
Mayer’s modification of Schöne’s method, 220
Mechanical analysis of soils, 171–179
Mercury and sulfuric acid method, Noyes’ modification, 519
- Warington’s modification, 518
Metamorphic rocks, 39
Metaphenylenediamin, reagent for nitrous acid, 557, 559
Microchemical examination of silt, 262, 266
Microscopic apparatus, 495
- examination of silt separates, 256
Microscopical structure of rocks, 28, 29
Mineralogical examination of silt separates, 254–278
Minerals, classification, 26
- in rocks, 24–26
- machine for making sections, 267
Möckern, reduction method, for nitric acid, 533
Moissan, estimation of boric acid, 581
Moisture, effect on soil temperature, 102
- estimation, 454
Moore, modification of silt analysis, 192
Muck soils, alcohol extract, 590
- estimation of humus, 589
  - phosphoric acid, 588
  - sulfur, 587
- ether extract, 590
- organic carbon and hydrogen, 586
- petroleum ether extract, 590
- phosphoric acid, 415
- sampling, 584
- special treatment, 583
- total volatile and organic matter, 586
- water content, 585
Mulder, humic acid, 62
Müller, method of determining soil absorption, 126
Müntz and Marcano, origin of nitrate deposits, 14
N
Naphthylamin, reagent for nitrous acid, 560
Nessler’s process, 570
- reagent, 570
Nitrate deposits, 14–16
Nitrates, estimation, 435
Nitric acid, classification of reduction methods, 531, 532
- - development in soils, 461
  - estimation by colorimetric comparison, 548–559
    - - oxidation of a colored solution, 524–531
      - reduction to ammonia, 531–543
    - classification of methods, 496–498
    - in presence of nitrous acid, 557
  - extraction from soil, 498–500
  - ferrous salt process, 500–518
  - iodometric estimation, 543–548
  - mercury and sulfuric acid method, 518
  - methods, relative merit, 498
  - nitric oxid process, 500–524
  - reduction by electric current, 540–543
  - solvent for soils, 351
- ferment, isolation, 471, 477, 481
Nitrification, apparatus and manipulation, 468
- effect of potassium salts, 463
- general conclusions, 496
- necessary conditions, 461–463
- preparation of seed, 468
- progress, 469
- statement of results, 478
- test of commencement, 469
Nitrifying organisms, classification, 487
- distribution, 470, 471
- microscopic examination, 480, 484
- occurrence, 467
Nitrites, destruction, 478, 558
Nitrogen, 12
- active soil, 434
- Arnold and Wedemeyer’s method, 440
- Dumas’ volumetric method, 446–448
- economic value, 395
- estimation in soils, 428–456
  - of amid, 451
    - volatile compounds, 452–454
- Hilgard’s method, 436
- Methods of Official Agricultural Chemists, 434
- Müller’s method 438–440
  - soda-lime method, 445
- nature in soils, 430–434
- order of oxidation, 465
- organic, in soils, 459–461
- oxidized, estimation in soils, 459–570
- soda-lime method, 441–444
  - in presence of nitrates, 444
Nitrous acid, development in soils, 461
- estimation, by coloration of a ferrous salt, 567
  - - colorimetric comparison, 559
    - potassium ferrocyanid, 567
  - classification of methods, 496–498
  - iodometric method, 564–567
- ferment, isolation, 471, 477
Nöbel’s apparatus, 207
Nöllner, nitrate deposits, 16
Norwacki and Borchardt, auger for soil sampling, 83
O
Odoriferous matters, determination, 98
- in soils, 97
Official Agricultural Chemists, latest methods, 454–456
- method for reduction of nitric acid, 532, 533
  - of analysis of soil extract, 353–356
    - soil solution, 349
Organic matter, estimation, 314
- influence on absorption, 124
- total, 315
Origin of soils, 43
Orth, classification, 185
Osborne, Berlin-Schöne method, 224
- method, comparison with Schloesing’s, 241
  - of silt analysis, 196
- -Schöne method, 219
  - comparisons, 223
Oxygen, 3
- absorption, 286
- estimation of organic, 324
P
Packard, separation of silt particles, 273
Pasturel, estimation of humus, 336
Peligot, preliminary treatment of samples, 91
Percolation, measurement, 161
- soils in situ, 164
Petermann, determination of water absorption, 138
- method for phosphoric acid, 409
- preliminary treatment of samples, 92
Petrographic examination of silt particles, 266
- microscope, 256
Pfaundler, specific heat method, 104–110
Phenylsulfuric acid, reagent for nitric acid, 554
Phosphoric acid, Carnot’s method, 403
- estimation, 354, 362, 403–406, 409–416
- French method, 406–409
- Halle method, 404, 405
- in muck soils, 415
- method of Goss, 416–418
  - Hilgard, 413
- Petermann’s method, 409
- Russian method, 412
- separation from iron and alumina, 414
Phosphorus, 6
- microchemical examination, 266
- state of existence in soils, 411
Piccini method for nitric acid, 558
- nitrous acid, 567
Pillitz and Zalomanoff, method of determining soil absorption, 125
Pissis, nitrate deposits, 16
Polarized light, examination, 261
Porosity, 131
- determination, 133
Potash, condition in soils, 367
- estimation, 355, 358, 361, 365, 368, 370–372, 375–378, 381, 382
- international method, 381
- Italian method, 377
- method of German experiment stations, 375
  - Tatlock and Dyer, 382
- Russian method, 376
- salts, deposits, 20
- Smith’s method, 378–381
- soluble in cold dilute acid, 370
  - concentrated acids, 368
Potassium, 18
- microchemical examination, 263
Pratt, bowlder phosphates, 9
Q
Qualities of soils, 52, 53
R
Rain water, method of collecting, 569
- preparation for analysis, 569
Raulin, method of estimating humus, 334
- potash, 375
Reaction of a soil, 303
Refractive index, determination, 259
Rideal, method for nitric acid, 553
Rocks, aeolian, 38
- aqueous, 32
- chemical composition, 30
- color, 31
- composition, 43
- decay, 43–52
- eruptive, 41–42
- kinds, 32
- metamorphic, 39
- microscopical structure, 28
- minerals, 24–26
- sedimentary, 35
- types, 28
Rohrbach’s solution, 271
Rowland, fall of particles in liquid, 180
S
Sachsse and Becker, method for iron, 401–403
Salts, preparation for absorption, 130
Samples for moisture, 74
- - permeability, 74
  - staple crops, 75
- preparation, 454
  - - for elutriation, 229
Sampling, general directions, 66
- method of Caldwell, 71
  - German experiment stations, 69
  - Grandeau, 77
  - Hilgard, 67
  - Lawes, 80
  - Official Agricultural Chemists, 79
    - French Commission, 69, 80
  - Peligot, 72
  - Richards, 69
  - Royal Agricultural Society, 76
  - Wahnschaffe, 72, 81
  - Whitney, 68, 73
  - Wolff, 81
Sandstone, 35
Schaeffer and Deventer, method for nitrous acid, 567
Schloesing method, comparison with Beaker, 241
- DeKonick’s modification, 514–516
- for nitric acid, 500
- French modification, 500–505
- of collecting soil gases, 291
  - silt analysis, 200
- Schmidt’s process, 516
- Schulze-Tiemann modification, 510–514
- Spiegel’s modification, 509
- Warington’s modification, 505–508
Schmidt’s method for nitric acid, 539
Schöne’s elutriator, 212
Schulze-Tiemann method, 510–514
Sea-weeds, analysis, 13
Sedimentary rocks, classification, 35
Sediments, separation of fine, 233
- weighing, 235
Seeding, method employed, 475
Selective absorption of soils, 122
Separation of silt particles, 272
Shaler, phosphatic limestones, 12
Sieve analysis, classification, 185
- German experiment stations, 183
- separation, 182
Sievert’s method for nitric acid, 536
Sifting with water, 183
Silica, 4
- direct estimation, 424
- estimation, 356, 361, 365
Silt analyses, value, 279
- analysis, Belgian method, 204
  - classification of results, 235, 236
  - interpretation, 251
  - Italian method, 195, 206
  - method of Hilgard, 225
    - Osborne, 196
    - Schöne, 212–220
  - methods, 185
  - Moore’s modification, 192
  - Schloesing’s method, 200
  - statement of results, 194
  - subsidence of soil particles, 186–188
  - Wolff’s method, 192
- classes, illustrations, 258
- particles, color and transparency, 278
  - examination, with polarized light, 261
  - forms and dimensions, 257
  - microchemical examination, 262–266
  - petrographic examination, 266
  - separation by specific gravity, 268–277
  - staining, 261
- percentage in soils, 249
- separates, microscopic examination, 256
- Mineralogical examination, 254–278
Siphon silt cylinder, 190
Soda, estimation, 355, 358, 361, 365, 374, 384
Sodium, 22
- amalgam process, 537–539
- microchemical examination, 263
Soil absorption, importance, 124
- - method of determining, 125
- analyses, special methods, 367–428
- definition, 1
- extracts, method of preparing, 158
- gases, 149, 150
- heat, sources, 102
- ingredients, distribution, 247
- moisture, 132
- particles, number, 251–253
  - standard sizes, 181
  - surface area, 253
- samples, air drying, 88
  - preliminary examination, 87–93
  - treatment in laboratory, 87
- sampling, general principles, 65
- solutions, analyses, 352–367
- temperatures, method of determining, 111
- thermometry, 111–116
Soils, absorptive power, 117–131
- and subsoils, 62, 63
- as a mass, 95
- carbon dioxid, 293
- chemical elements, 2
- classification; according to deposition, 52
- cohesion and adhesion, 116, 117
- color, 95
- compact, 90
- composition, relation to gases, 282
- conductivity for heat, 115
- deficient in carbonates, 340
- digestion with solvents, 343–352
- estimation of carbonates, 337
- loose, 89
- mechanical analysis, 171–179
- method of estimating absorption of heat, 115
- nitrifying power, 467
- origin, 1, 43
- preliminary treatment, 87–93
- qualities, 52–53
- reaction, 303
- selective absorption, 122
- specific gravity, 98
  - determination, 99
- unusual constituents, 591–593
- volume, 100
- weight of one hectare, 102
Solar heat, absorption, 103
Specific gravity, 30
- - of soils, 98–110
    - apparent, 101
    - determination of apparent, 101
- heat of soils, 102
  - determination, 104–110
  - variations, 110
Spencer, photomicrographs, 259
Squanto, manurial value of fish, 14
Staining organisms, method, 487
- silt particles, 261
Stassfurt potash salts, 20
Sterilization, 489
- by heat, 490
- high pressure steam, 492
Sterilized soil, nitrification, 487, 488
Sterilizing apparatus, 490, 493
- oven, 491
Stockbridge, composition of humus, 61
- soil moisture, 132
Strontium, microchemical examination, 265
Stutzer’s method for nitric acid, 537
Subcultures, method, 479
Subsidence, physical explanation, 180
Sulfanilic acid, preparation, 562
- reagent for nitrous acid, 560
Sulfur, 51
- state of existence in soils, 419
Sulfuric acid, estimation, 355, 358, 361
- French method, 419
- Italian method, 422
- method of Berthelot and André, 419
  - Von Bemmelén, 420–422
  - Wolff, 422
Surface area, influence on absorption, 123
- particles, effect of potential, 172
- tension, influence, 174
  - method of estimating, 157
  - of fertilizers, 156
T
Thenard, humic acid, 62
Thermometry, general principles of soil, 111
Thermostats, 494
Thoulet’s solution, 268
U
Ulmic acid, 61
Ulsch’s method for nitric acid, 539
V
Von Bemmelén, determination of water, 310
- method of humus estimation, 332
Vegetable life, action, 48
- soils, 58–60
Volatile matter, estimation, 455
W
Wahnschaffe, preliminary treatment of samples, 91
Warington, absorption of potash and ammonia, 120
- and Peake, oxidation of carbon, 316
- experiments in nitrification, 468–470, 485–488
- indigo method, 528–531
- Schloesing method, 505–508
Water absorption by soils, determination, 136–143
- capacity of soils, effect of pressure, 143
- determination at 110°, 306
  - general conclusions, 313
- estimation after air drying, 305
  - in water-free atmosphere, 149
- in fresh samples, 304
  - soils, determination, 303–314
- movement, causes, 155
  - in soils, 151–169
  - methods, 151
- relative flow, 159
- residual amount, dried at 110°, 308
- solvent, action, 47
  - for soils, 343
- special examination, 576–583
- total solid matter, 576
Way, absorptive power of soils, 118, 120
Weight of soil, 102
Welitschowsky, measurement of percolation, 161–163
Wheeler and Hartwell, analysis of sea-weeds, 13
Whitney and Marvin, method of determining soil temperatures, 112–115
- causes of water movement, 155
- determination of interstitial space, 134
- effect of potential, 172
- influence of surface area on absorption, 123
- measurement of percolation, 163
- relative flow of water, 159
- surface tension of fertilizers, 156
- theory of subsidence, 180
Williams, machine for mineral sections, 267
- -Warington method for nitric acid, 540, 541
Winogradsky, experiments in nitrification, 471–483
Wolff and Wahnschaffe, method of determination of water absorption, 136
- determination of coefficient of evaporation, 148
- method for silt analysis, 192
- preliminary treatment of soil samples, 88
Wollny, determination of water absorption, 142
- occurrence of carbon dioxid, 282
Wülfing’s apparatus, 277
Wyatt, phosphate deposits, 8
X
Xylic acid, 62
Z
Zinc, estimation, 592