Weathering and Soil Formation PDF

Summary

This document contains a chapter on weathering and soil formation, covering topics such as weathering types, soil profiles, and related concepts. It's presented in a question-and-answer format.

Full Transcript

1
Chapter

Weatheringand Soil Formation
as
1. Unconsolidated material overlying the rocks is known
(a) Solum (c) Catena
(d) Deposited material
(b) Regolith
2. Weathering is more pronounced at
(c) Lower portion of profile
(a) Upper portion of soil profile
(d) All of these
(b) Middle portion of soil profile
of the regolith differentiated into horizon
3. Upper and biochemically weathered portion
is called
(a) Pedon (c) Soil
(b) Mineral (d) Solum
4. Weathering refers to
(a) Disintegration (c) Disintegration and decomposition
(d) None of these
(b) Decomposition
5. Physical weathering means
(a) Disintegration of rocks (c) Displacement of the rock
(d) Allof these
(b) Decomposition of rock
6. Example of monomineralic rock is
(a) Marble (c) Lime stone
(b) Halite (d) All of these
 Objective Fundamental of Soil Science
Weathering and Soil Formation 3

7. The term "Exíoliation" is related to 19. Example of hydrolysis of silicate clay minerals is
(c) Biological weathering
(a) Physical weathering (a) Mica to Vermiculite (c) Kaolinite to Mica
(d) None of these (b) Haematite to Limonite
(b) Chemical weathering (d) Vermiculite to Feldspar
8. The Solum is 20. One of the most important process in weathering is
(c) O + A+ E + Bhorizon (a) Physical
(a) O + A + B horizon (c) Biological
horizon (d) O + A + E+ C horizon (b) Chemical
(b) O A +B +C (d) All of these
exerted by the freezing of water is equivalent to 21. Which one of the process is considered as forerunners of clay formation
9. The force
(a) 1465 tm (c) Both (a) and (b) (a) Hydrolysis (c) Solution
(b) 150 t t (d) None of these (b) Hydration (d) None of these
10. Water expands on freezing by about 22. The process involving addition of oxygen or loss of electron is called
(c) 5% (a) Hydrolysis (c) Reduction
(a) 9
(d) 15% (b) Oxidation (d) Solution
(b) 19
11. Chemical weathering refers to 23. The mineral susceptible to oxidation is
(a) Disintegration of rock (c) Displacement of rock (a) Muscovite (c) Biotite
(b) Decomposition of rock (d) None of these (b) Quartz (d) Calcite
12. Chemical weathering is more pronounced in 24. Formation of orange and yellow mottles under reduced condition is due to
(a) And-semiand (c) Humid temperate (a) Monetite (c) Augite
(d) Humid cold (b) Zircon (d) Lepidocrocite
(b) Humid tropical
13. Changes in the nature and composition of rocks and mineral are due to 25. Under chemical weathering, oxidation always takes place after the
(c) Biological weathering (a) Hydration (c) Reduction
(a) Physical weathering
(d) All of these (b) Hydrolysis (d) Carbonation
(b) Chemical weathering
14. Mica is a 26. "Stability Series" was proposed by
(c) Secondary clay mineral (a) Jackson (c) Goldich
a) Primary mineral
(b) Secondary mineral (d) Clay mineral (b) Marbut (d) Jenny
15. Double decomposition process is known as 27. An example of Black mica is
(a) Muscovite (c) Both
(a) Hydration (c) Hydrolysis
(d) Oxidation (b) Biotite (d) None
(b) Solution
16. Chemical combination of water molecules with a mineral to form a new mineral Is 28. An example of Ca containing feldspar is
due to (a) Orthoclase (c) Anorthite
(a) Hydration (c) Oxidation (b) Albite (d) All of these
(b) Hydrolysis (d) Reduction 29. The term "Weathering Index" was proposed by
17. Conversion of anhydrite calcium sulphate to gypsum is an example of (a) Goldich (c) Hillel
(c) Solution (b) Jackson (d) Marshal
(a) Hydration
(b) Hydrolysis (d) Transformation 30. Which mineral is more susceptible to weathering
18. Least weatherable mineral is (a) Albite (c) Anorthite
(a) Olivine (c) Biotite (b) Muscovite (d) Orthoclase
(b) Muscovite (d) Quartz
 as the from
known development
climate for plains
material of
is signature mineral
humid wind stratifiedenter
acidic soil
by parent called they (>10%) (10%)
( >
of Olivine
Calcite by called the
Fundamental Active
weathering and
Hematite
Anatase proposed to
> > is leads
Gypsum
Olivine is i.e. ice
Calcite Waterlogged
soil
Index)
(Weathering (d) kaolinite
Montmorillonite Transformation groups
(C) by sediments
(c)Oligoclase
(d) Heamatite
Objective Orthoclase (c) increasing (d)
Gypsification
Desilication
(c) thesewas
> respectively
and another(d)
Lacustrine
>
Gypsum
Calcite Chlorite
(c) from
Anatase
(d) t...)]Martbut (c)
Alluvium Red
soil
Albite (c) (d) two(c)
Jackson Kellogg
Thorpis Relief
(d) (c) (d)
of Time
All p, into formation to of
gibbsite
of (b) (d) ismineral are (c) (d) (d) o,
r,
place deposition
(c) (d)
formnation
WI orderBiotite
Gypsum (cl,
of minerals soil one
highest =f
in ciay formation from
>
mineral [S of the
is Olivine
> phyllosilicate soil
formation factor
feldspar the Biotite containing
of transportedthrough
the Hematite factors active
has weatherable
> Calcite includes
>
Calcite soil
containing mineral Olivine in
involved soil (b)
Parent
material
titanium
and and the an
resistant (a)
Weathering
formation of (a)
Hens
Jenny material of (a)
Alluvial
soil
Anorthite
(b) > (a) Hyaration
(b) (b)
Deposition of Development
clay Gypsum
> Kaolinite
(b) Silication Hematite factors divided (a)
Moraine (b)
oil
Black
(a) Gibbsite
(b) easily
Quartz Calcite Anatase
and
(a) one Climate
Marbut
(b)
Joffy
(a) (b)
Marine
Sodium
(a)
Albite Process (b)
Joffy
Which (a)
Illite Which Parent
The (a) (c) Most 0ron (b) Soil
(a)
Five Who
of
31. 32. 33. 34. 35. 36. 37. 38. 39. 40. 41. 42.
6
Objective Fundamental of Soil Sclence
Weathering and Soil Formation

54. Polygenetic soil comes under 65. Which one is not apedogenic process
(a) Entisols (c) Vertisols
(a) Humification (b) Calcification
(b) Alfisols (d) Gelisols (d) Ferruginization
(c) Laterization
55. When soils in a watershed are strongly acidic, iron may leach from them and get 66. Parent material is developed from
deposited in depression to form
(a) Solidification of magma (c) Pedogenesis
(a) Hematite (c) Gibbsite (b) Weathering of rocks and minerals (d) None of the above
(b) Variscite (d) Limonite (Bog lron)
67. Fundamental pedogenic processes are
56. Process involved in removal of silica from soil and accumulation of sesquioxides (a) Gain, loss, addition and transformation
is called
(b) Gain, loss, transformation and translocation
(a) Laterization (c) Silication (c) Salinisation and Laterisation
(b) Podzolization (d) Gleization (d) None of the above
57. Removal of fine clay in suspension from upper part of soil profile to lower part is 68. Podsolisation process of soil development occurs in
called (b) Arctic climate
(a) Warm and humid climate
(a) Eluviation (c) Lessivage (c) Temperate and humid climate (d) None of the above
(b) Iluviation (d) Leaching
58. Release of iron from primary mineral and coating on soil particles to impart brown Answer
to red colour to the soil is known as
1. (b) 2. (a) 3. (c) 4. (c) 5. (a)
(a) Braunification (c) Rubification
6. (d) 7. (a) 8. (c) 9. (c) 10. (a)
(b) Ferruginisation (d) All of these
11. (b) 12. (b) 13. (b) 14. (a) 15. (c)
59. Soil developed from granite type of parent materials is
16. (a) 17. (a) 18. (d) 19. (a) 20. (b)
(a) Basic and course texture (c) Acidic and clay texture 25. (b)
21. (a) 22. (b) 23. (c) 24. (d)
(b) Acidic and course texture (d) Basic and clay texture
26. (c) 27. (b) 28. (a) 29. (b) 30. (c)
60. According to Mohr and Van Baren, how many soil forming 33. (a) 34. (b) 35. (c)
stages are there ? 31. (a) 32. (d)
(a) 7 (c) 5 36. (d) 37. (d) 38. (a) 39. (b) 40. (a)
(b) 3 (d) 9 42. (a) 43. (d) 44. (c) 45. (a)
41. (a)
61. End product of weathering is 46. (c) 47. (b) 48. (a) 49. (b) 50. (c)
(a) Soil formation 51. (b) 52. (c) 53. (b) 54. (c) 55. (d)
(c) Soil genesis
(b) Parent material 56. (a) 57. (c) 58. (d) 59. (b) 60. (c)
(d) Soil
62. Examples of Cumulose parent 61. (b) 62. (b) 63. (c) 64. (b) 65. (d)
material are 68. (c)
(a) Colluvium 66. (b) 67. (b)
(c) Alluvium
(b) Peat and Muck
(d) Loess
63. 'Eluviation' process is a
(a) Zonal specific Pedogenic process (c) Fundamental
(b) Intrazonal specific PedogeniC Pedogenic process
process (d) None of these
64. The statement "Soil is a
nutrient bín" was coined by
(a) Hillgaurd (c) Ruffin
(b) Whitrney
(d) Jenny
 5. 4. 3. 2.
6. 1. Chapter
following
(b) (a) the NaAISiO, What NaAISiO,
(b) (a) KAIS,Os
?The KAIS,0, (b) (a) What 60%
(b) 30%(a) Feldspar
What Quartz ) Podzolization
(aWhich
(b) Desilication(b) (a) What
AnorthiteAlbite is
Chemical
plagioclase is is is
the the the among the
18
and
and
Olivine
molecular molecular percentage accumulation
the
Fayalite feldspar
following
formula formula
is of
feldspar of
a Composition is free
series of of the
Anorthite Albite silica
in most
consisting
(d) (c) CaAI,Si,o,
Mg,SiO,
(d) (c) Mg,SiO4
igneous on
CaAl,Si,O,
(d) (c) ?20%(d) (c)
40%Amphiboles ) MiHumification
c(ac) Laterization
(dabundant (d) (c)
AlbiteAlbite ? surface
of rocks
and and a primary soil
Anorthite
Fayalite solid (by
called
solution weight)
mineral
?
of ? of
?
which Soil
among
 14. 13. 12. 11. 10.
16. o Q 7.
Chemical
?
Octahedral Al,SiOs
(b) (a) wnat Ai,SiO,
(b) (a)AISiO,(F,
WriteAISiO,(F,
OH), (bOH),
) (a) Write Zr,SiO,
AI,SiO5 (b) Cyclosilicate (a) Al,SIOs(b)
(b) Olivine
(a) WriteInosilicate Desilication
(a) Write (d) (c) (b) (a) Which (b) (a) From (b) (a)
lcedony (bOpal
) (a) (b) 4Soluble
(a) 9 Dimetric
Silica
series Whi?ch
No Contact Albite,Albite,
Which the the the
(Mg*, the All No(SiO,) which Composition
is comes the
sharing
isomorphousstatement
insoluble
minerals in the formula
among
form formula formula Formula above
Fe*), "is Andesine
Oligoclase
fundamnental metamorphism
present among
under of the of
majnlv SiO, is
are of of of ofOxygen following Soil
Zircon
the and and
Forsterite Topaz which olivine substitution
isolaterycorrect
does following
unit between Bytownite
of Labradorite
free for
at mineral limestone constitute
occurs Neso
silica low all neighbouring form
silicate group
occur pH. insilicate Anorthite the
Fe,SiO, Al,SiOs
(d) (c) ZrSiO,
(d) (c) silicate
Nesosilicate
(d) Soro(c) Al,SIO4
(d) (c) industries
(d) Iron(c) (d) (c)
Chert
Quartz
(d) (c) (d) 6 (c) 5 Trimetric
tetrahedran
(d)SiO,(c) Mg,SiO,
(d) (c) Nesosilicate
Above structures ? Albite,
compositional
in None AISiO, None Leather
minerals All
solls units the
which of ?
of Oligoclase
above
(F, these industries
? these
? OH)2 (Sio,)
pH
silica and
minerals
?
Anorthite
minerals of
plagioclase
become
103
 104
29. 28. many
HOWZI. 26. 25. 24. 23. 22. 21. 20. 19. 18.
Tectosilicate
Three-dimensional One(a)Tectosilicate
(b) One(a) Three(b) Sorosilicate (b) (a) InSio,(b) Sio,(a) Write (b) (Which (a) How
a) Three(b) OnePhyllosilicates
(b) (aHoney
) a)
Chert(b) (a) Rare Agate(b) Opal(Which Coarse
sand
Fine In 473°C
(b)clays(a) 373°C (b) (a) what At
Structural
(Si,0,)*
(b) (a) dimensional which which
[Sio, Tectosilicate
Sorosilicate Sorosilicates Cristabalite
the many quartz
silicate comb among
mineral structural fraction temperature
formula oxygen oxygen polymorphous
n-3to6 mínerals like the
mineral and
group structures following is
pf atoms unit molecules tridymite Quartz
cyclosilicates are group a-quartz
is of
are Cagetectosilicate is/are (SIo)
are is
shared belongs are Biogenic (trigonal). like found
shared mainly
structure.. in to in
dimensional
None(d) Two(c) (dAl)l Nesosilicate
Two(c)Phyllosilicate
tectosilicate group
Inosilicate
(d)
(d) (c) Si,O,(d) Sio,(c) Cyclosilicate (c)
neutral Four(d) TwoCyclosilicates ) Pyrophyllite
(c)Inosilicate(d) (cwhich (d) quartz
(d) (c) Chalcedony clay
(c) CoarseSilt(d) Fine
present (d) (c)
(c) 773°C573°C is
[Sio,J,
(d) n-d3
(c) in transformed
None phyllosilicates All
formed All Objective
? mineral of of ?
or these these ?
of
non-charge
these structure
group to
Fundamental
structure
p-quartz

r group ?
(hexagonal) of
? ? Soll
Scenca

?
 40. 39, 38. S. 36. 35. 34. 92 D 31.
41. Chemical
minerals ? Albite (a) NaAISi,O CaAl,SiO, (b) (a) (b)Na (Ca
Isomorphousa) Quartz
Anorthite(b) (a) Structural
CaMgSi,O, Inosilicates
No (b) (a) (b)
Cyclosilicates (a)
Feldspar -
[Si,0,"h
[SiO,,
(b) (a) Benitoite
Write (b) Benyl
(a)
Inosilicates
Which (b)
Cyclosilicates (a) Nesosilicates
Cyclosilicates (b) (a)
Tectosilicate
sOsilicates (b) (a) Anorthite
Labradorite, (b)CaAl,Sio, (a) Which
Which (b) NaAISio Which Ber y l
isomorphous (K, nite
the mineral and
among among amomng Na) Co mp osit on
formula and structural
(AISi)O, Tourmaline [BeTiSi,O,]
the
quartz is of
Bytownite, the thesubstitution
substitution of
rich Soil
following following following formula
orthoclase are and
source are
example the
Andesine, is Axente
is Anorthiteis is possible
of of
occurs inosilicate example
Plagioclase Albite is Boron
of are
which
? upto in 9 of
Sorosilicate
silicates (c)
(d) Oligoclase Both(c) CaMgSi,O,
None(d) CaAl,Si,O, (c) NaAISi,o,
(d) NaAl,Si,O, (Ald)l (c) K (Albite )
Ald)l (cwhich NoneTectosilicates (d) (c)
(d) (cSorosilicates
) SiO,[SiO,Jh Axenite(dNesosilicates
(d) (c) Tourmaline) (c)Sorosilicates c)
(Sorosilicates
? (d) (c) the
(d) Inosilicates
? (d) (c) (single
mineral 50% (Na, group which example
mineral ?
in K) of chain) mineral
group
comes ? feldspar (AISi,) of
minerals......
?
under Oa
by
?

which

group of
105
 106
Horneblendeand 53. 52. 50. 49. Mg+248. 47. Octahedral46. 44. 43.
51. 45, 42.
Sorosilicate Forsterite
(b) (a) Anorthite
(b) (a) 2:1:1 a)
In (b) 2:1(Under ofTetrahydral
Mg*2(b) Ca*(a) When Si(4b) Ar(3a) Presence (a)
Dimetric(b) Di-octahedral Mono-0ctahydral
Dimetric
(b) (a) Di-octahedral
When (b) Inosilicates
(a) Nesosilicates
(b) Sorosilicates
(a) Nesosilicate
No(b) Sorosilicates
(a) Nesosilicate (a) Sorosilicates
In (b) NesosilicatesIn (b) (a)
Which which Gibbsite
silicates oxygen which wiich Granite,
which is is
mineral present Alt
mineral Brucite among
layer of is is
among Zircon,
present sheet is
phyllosilicate which shared
(double group do is layer ? in the the
Ca element....... Kayanite,
chain) present formed in among following following
Amphibole, octahedral
Kaolinite-serpentine
group
does in
? octahedral the Olivine,
? group group
structural
position, Topaz
do do
yclosilicate ) (c)
(a) (c) Fayalite(dAlbite None(d) (c1:
)1 Aßt(d) Nat(c) Nonephyllosilicates Di-octahydral
(d) Mg*2(c)Tri-octahedra c) Trimetric (c)
(d) Tri-octahedral
Tetra-octahydral
siteof (d) (Tri-octahedral (d) (c)Sorosilicates Pyrosenes,
(d) (c) Inosilicates Augite,
(c) Akermonlte,
(d)Enstetite groups
(d) Epldote
(c) Inosilicates
(d) (c)
unit comes
silicates it Phyllosilicates All Inosilicates
All None
is of of
called in Objective
which these these of under
these
(single Trimolite
mineral Fundamental
which
chain) group results minerala1
groupot
belong group
belong in Come
under under
Come
to Soll
of
? to appearanc ?
? Sclen
 59. 58. 57. 56. 65. Chemical
54.
O. O. o0.
How 64.
O grained
Coarse (a) Sandstone
eruption Which
? Granite ? (aPhyllosilicates
(1.b)5 (1.a)3 What 0.(b5) Inosilicates
wha¥t
10.1(b) ¢12.1(a) ¢ Fe,
Mg
(b) Olivine
Ca,
(
Zn
a) Metamorphic
Na,
Ca
(
Nepheline
Ca
( bK,
) a ) Volcanic
rock(b)rocks fragments
(a)
Which Rock(b) (b) (a) From 5-10%(b) 2-49%(a) soil Upto 0.)1 What (b) (a) What
One (b) Two(a)
what is is
Composition is
many is kind kind which the the the
the is
rich is of at level density density sheet
molecules basal rich rocks
among of
in rocks
does like Soil
which in
spacing the of (Mg/m")
which are are
carbon mineral silicate
of among formed following
Water
formed
of among of
Halloysite dioxide matter organic structures
are the when when
the do
following
present cooling
following rapid (d)
Clayey concentration
30-40%10-20%
(d) (c) 0.
(d5)
(Mg/m) Cyclosilicates
2.(c7) 1.(d0) 1.matter (d) (c)
(c5) Sorosilicates
Four(dThree
) (c) None(dminerals
) 7.(c2) ¢ Na,(d)Ca(c) Ca,(dMg
) (c)Na K, Plutonic (d) rock(c) grained
(d) Fine(c) Mica
(c) called
in Fe ? All cooling All Deccan black
of
occurred in in
Endelite and ? of ?
? these
soil soil
these
Mn occurred basalt soils ? ?
may
? slowly formed
(fine reach
? after
textured) ? in
the poorly
event
drained
of 107
an
 76. 75. r4. 73. 72. 71. 70. 69. 68. 67.
66.To 65.
a)
0.5-1tri-octahedral
(b) 2.(0di-octahydral2:1 (bdi-octahedral
) 2:1(a) To1:1(b) (a) To10.(116.2Åb) ¢ (a) What (b) (a) What m²lg 5-2050-100 (b) AISi,O,o(OH),
(b) m²lg(a) What Al,Si,0,(0H), (a) What (b) (a) What (b) (Which ) (Which
a)
a) Gibbsite(bdi-octahedral 1:1(b) (a) One(b) Two(a) How
What
which 2:
which 70-120
15-40 0.01 0.1 1:1 2:Hectodorite 2:
group
whichdo
is is is is is many
is 1 um the group
1
the the the the um the mineral 1
di-octahedral
group Cmol di-octahedral
di-octahedral di-octahedral
group d-spacing CmolCation specific to
diameter structural molecules
structural to 5 of
0.1 um is
does do
(p+) (p+) minerals a
Exchange um source
Dickite. kg kg surface of formula Montmorilonite,
charge Serpentine of group group group group of
kaolinite
kaolinite does water
of
Nacrite. area
of Capacity of Zinc