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Chapter 1 The Soils Around Us

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German scientists including Ramann and Fallou In the mid 1800s developed agroecology that viewed soil as weathered, somewhat leached surficial rock. – PowerPoint PPT presentation

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Title: Chapter 1 The Soils Around Us


1
Chapter 1 The Soils Around Us
  • Earth, unique for soil and water. (NASA)

2
Figure 1.1
(a)
(b)
(d)
(c)
3
Figure 1.2
4
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5
Essential Elements
C.B. HOPKiNS CaFe, Co. Closed Monday Morning and
Night See You Zoon, the Mg.
6
Figure 1.4
7
Figure 1.5
8
Figure 1.7
9
Figure 1.8
10
Figure 1.9
11
Soil Horizons
  • A soil horizon is a layer of soil, revealed in a
    soil profile, lying approximately parallel to the
    earth's surface, and possessing relatively
    homogeneous physical, chemical, and biological
    properties.
  • O Horizons
  • Organic horizon at the soil surface, usually
    unconsolidated organic material (leaf litter,
    roots, leaves, etc.), not saturated with water.
  • Oi Horizon
  • Fibric material - Recognizable plant and animal
    parts
  • Oe Horizon
  • Hemic materials - Finely fragmented residues
    intermediately decomposed
  • Oa Horizon
  • Sapric materials - Highly decomposed, smooth, and
    amorphous residues

12
Soil Horizons
  • A Horizons
  • Mineral horizon formed at or near the surface
    where humified organic matter is associated with
    mineral materials. Usually darker in color
    because of the organic matter.
  • E Horizons
  • mineral horizon just below the soil surface that
    has lost its silicate clay, organic matter,
    aluminum, or iron by downward movement, leaving a
    concentration of resistant sand and silt
    particles. "E" stands for "eluvial horizon," a
    soil layer formed by the removal of constituents
    such as clay or iron. Eluviation describes the
    process whereby constituents of soil are removed
    in suspension.

13
Soil Horizons
  • B Horizons
  • A subsurface mineral horizon resulting from (1)
    the change in situ of soil material, i.e., the
    obliteration of the original rock structure, or
    (2) the washing in of material from overlying
    horizons, i.e., the accumulation of silicate
    clay, organic matter, aluminum, or iron.
    Illuviation describes the process of accumulation
    of materials from overlying horizons.
  • C Horizons
  • Unconsolidated or weakly consolidated mineral
    horizon that retains evidence of rock structure,
    but lacks diagnostic properties of the overlying
    A, E, and B horizons. This horizon is little
    affected by pedogenic (i.e. soil forming)
    processes. Examples include beach sand, windblown
    silt (or loess), alluvium deposited by rivers,
    and glacial till deposited by glacial ice.
  • R Horizons
  • continuous (consolidated) hard or very hard
    bedrock.

14
Figure 2.33
15
Figure 2.35
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17
Figure 2.36
18
Figure 2.37
19
Figure 1.10
(a)
(b)
20
Figure 1.11
21
Figure 1.12
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Figure 1.13
(b)
(a)
23
Figure 1.14
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Figure 1.15
25
Figure 1.16
26
Figure 1.17
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Figure 1.20
(a)
(b)
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Figure 1.21
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Figure 1.22
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Figure 1.23
32
Nutrient Uptake
  • Root Interception
  • Diffusion
  • Mass Flow

33
Figure 1.26
34
Root Micrograph
35
Figure 1.24
36
Agricultural Production
  • Population is growing
  • Cropland is destroyed by urban sprawl
  • New forest must be cleared for new croplands
  • Still the amount of cropland per person is
    decreasing
  • Knowledge of soils help to increase yield per
    acre

37
Figure 1.27
38
Historical Development
  • Earliest People to Study Soils
  • Aristotle (384-322 B.C.)
  • Theophrastes (372-287 B.C.)
  • Considered the properties of soil in relation
    plant nutrition
  • Considered the properties of soil in relation
    plant nutrition.

39
Historical Development
  • Roman writers who discussed differences among
    soils in relation to plant growth.
  • Cato the Elder (234-149 B.C.)
  • Varro (116-27 B.C.)
  • Virgil (70-19 B.C.)
  • Columella (about A.D. 45)
  • Pliny the Elder (A.D. 23-79)

40
Historical Development
  • Lomonosov (1711-1765)
  • Russian that wrote about soil as an evolutionary
    process.
  • Justus von Liebig
  • In 1840 published Chemistry in its Application to
    Agriculture and Physiology in which he states
    plants assimilate mineral nutrients from the
    soil.
  • German scientists including Ramann and Fallou
  • In the mid 1800s developed agroecology that
    viewed soil as weathered, somewhat leached
    surficial rock.

41
Historical Development
  • Dokuchaev (1846-1903)
  • In 1883 developed many of the early applications
    of soil science. His dynamic research and
    teaching fueled extended studies of soil genesis
    in Russia.
  • Glinka (1867-1916) and Neustruyev (1874-1928)
  • Continued the work of Dokuchaev, stating that
    soil is a weathered crust that exhibits specific
    properties correlated with climatic zones.
  • Williams (1863-1939)
  • Another Russian soil scientist, emphasized the
    concept that soil genesis was a biological
    process.

42
Historical Development
  • Hilgard (1833-1916)
  • One of the first U.S. soil scientists, wrote
    about the relationships between soils and
    climate.
  • Marbut (1863-1935)
  • Did much of the significant early work in soils
    in the United States emphasizing the soil
    profile.
  • Smith (1907-1981)
  • Was the chief architect of Soil Taxonomy, which
    advanced and refined soil genesis in support of
    soil classification and soil survey.

43
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