1 image – a soil profile lecture #6 – plant nutrition and soils
TRANSCRIPT
1
Image – a soil profile
Lecture #6 – Plant Nutrition and Soils
2
Key Concepts:
• ResourcesWhich are requiredHow they are used
• Essential elementsWhat they areWhat they do
• Soils and soil forming factors• The rhizosphere• Some alternate methods to acquire
nutrients
3
Resource requirements for plant growth???
4
Where do plants get these resources???
5
Where do plants get these resources???
6
Diagram – plant resource requirements and sources
Image – root system of a grass
7
Plant tissue composition by weight:
• Fresh herbaceous tissue is 80-85% water• Little water is incorporated into plant tissue
What does water contribute to tissue???• Most water is in the cell solution, in the
vacuoles, or passing through in the transpiration stream
8
Critical Thinking
• Does wood have such a high percentage of water???
9
Critical Thinking
• Does wood have such a high percentage of water???
10
Plant tissue composition by weight:
• Fresh herbaceous tissue is 80-85% water• Little water is incorporated into plant tissue
What does water contribute to tissue???
11
Plant tissue composition by weight:
• Fresh herbaceous tissue is 80-85% water• Little water is incorporated into plant tissue
12
Plant tissue composition by weight:
• Fresh herbaceous tissue is 80-85% water• Little water is incorporated into plant tissue
13
DRY plant tissue composition by weight:
• 45% carbon• 45% oxygen• 6% hydrogen• 5% inorganic mineral nutrients
Each a tad under 45%
14
DRY plant tissue composition by weight:
• 45% carbon – from ?? CO2
• 45% oxygen – from ?? CO2
• 6% hydrogen – from ?? water• 5% inorganic mineral nutrients – from ??
soil
15
DRY plant tissue composition by weight:
• 45% carbon – from • 45% oxygen – from• 6% hydrogen – from• 5% inorganic mineral nutrients – from
16
DRY plant tissue composition by weight:
• 45% carbon – from • 45% oxygen – from • 6% hydrogen – from • 5% inorganic mineral nutrients – from
17
Diagram – what goes into photosynthesis and what comes out
C, H, O – source and fate in photosynthesis
18
DRY plant tissue composition by weight:
• 45% carbon – from CO2
• 45% oxygen – from CO2
• 6% hydrogen – from water• 5% inorganic mineral nutrients – from
0.75-1% of wet weight, but many are essential to plant growth and function
19
Critical Thinking
• What is the difference between a chemical element, a molecule and a macromolecule???
20
Dia
gram
– s
truc
ture
of
chlo
roph
yll m
olec
ule
Critical Thinking
• What is the difference between a chemical element, a molecule and a macromolecule???
21
Essential Elements
• Chemical elementsNot molecules, though some are delivered in
that form – N vs. NO3-
• Required for growth and function of the plant• Can’t be replaced by some other element
• Some contribute to structural components• Some contribute to metabolic processes or
the maintenance of homeostasis
22
Essential elements in structural plant components:
?
23
Essential elements in structural plant components:
• Cellulose – ??• Lignin – ??• Pectin – ??• Cell membranes – ??• Proteins (cell membrane, cytoskeleton) – ??
24
Essential elements in structural plant components:
• Cellulose –• Lignin –• Pectin –• Cell membranes –• Proteins (cell membrane, cytoskeleton) –
25
Essential elements for metabolic processes:
?
26
Essential elements for metabolic processes:
• Chlorophyll – ??• Nucleic acids – ??• ATP – ??• Enzymes and other proteins – ??• Enzyme cofactors – ??• Elements that control water, charge and
solute balance – ??
27
Essential elements for metabolic processes:
• Chlorophyll –• Nucleic acids –• ATP –• Enzymes and other proteins –• Enzyme cofactors – many • Elements that control water, charge and
solute balance –
28
Macro Nutrients vs. Micro Nutrients
• Nitrogen• Potassium• Calcium• Magnesium• Phosphorous• Sulfur
• Chlorine, Iron, Boron, Manganese, Zinc, Copper and Molybdenum
• Some plants also require Nickel, Sodium, Silicon, Selenium or others
mass
All used in large quantities to support the structures and processes listed before
Mostly used in enzymes, as enzyme cofactors or in electron transfers – often reused, less required
29
Table – essential nutrients, both macro and micro
Study table in book!
30
Memory device in honor of my friend and mentor, Dr. Chuck Davey –
celebrated in 2006 for 50 years of service to soil science!!!
“C HOPKNS CaFe, Mg, Mn B CuZn Mo, Cl”
C. Hopkin's cafe, mighty good, managed by cousin Mo, waitress Clara
Nickel may also be essential
31
Images – various plants that use additional elements
Silicon in horsetails
Sulfur in mustards
Uranium in macadamia nuts
Some minerals required, some by chance…
32
Critical Thinking
• How do you tell which are required???
33
Critical Thinking
• How do you tell which are required???
34
Critical Thinking
• How do you tell which are required???
• How would elements NOT required enter the plant tissue???
35
Critical Thinking
• How do you tell which are required???
• How would elements NOT required enter the plant tissue???
36
Images – signs of deficiency
All plants will exhibit signs of deficiencies…..
37
Critical Thinking
• If the deficiency appears first in the older leaves, is that nutrient mobile or immobile???
38
Critical Thinking
• If the deficiency appears first in the older leaves, is that nutrient mobile or immobile???
• How???
39
Critical Thinking
• If the deficiency appears first in the older leaves, is that nutrient mobile or immobile???
• How???
40
Mg deficiency in older leaves (mobile)
Fe deficiency in younger leaves (immobile)
41
Critical Thinking
• Why would some elements be mobile, and others not???
42
Critical Thinking
• Why would some elements be mobile, and others not???
43
Image – roots
Most plants get most of their nutrients from the soil – absorbed
through the roots
44
Soil is not just Dirt!
• Soil is the “skin” of the earth
• Soil provides for virtually all our food
• Soil supports the forests that maintain the hydrological cycle
• Soil supports virtually all terrestrial ecosystems – from micro-organisms to charismatic macro-fauna
45
Image – erosion after tropical deforestation
The results of deforestation are ecological, economic and social disaster ( )Rosie
46
Removing the plants removes the soil’s protective “blanket” and erosion is almost inevitable
47
More images – erosion
Erosion from deforestation in
Madagascar
48
Image – sediments from eroded land flooding out to sea
Sedimentation from erosion – this represents a huge loss of soil “capital”
49
Image – sediments eroding off Haiti into the sea
Sediments eroding off Haiti
50
Image – the political boundary is clear from the deforestation
Haiti
Dominican Republic
51
Image – the drought in Haiti, where residents eat mud to survive
Haiti’s drought is caused largely by deforestation – the hydrological cycle has been snapped
52
Maps – deforestation in England and in the US
Deforestation in Warwickshire, England
Deforestation in the US
53
Map – soil loss in the Southern Piedmont of the US due to deforestation and abusive agricultural practices
Piedmont soil erosion in the
southeastern US
54
Image – eroded land in the Southern Piedmont
The USFS Calhoun Experimental Forest in the 1950’sUnion County, South Carolina
55
Maps – loss of farms, rise of industrial forestry, creating the biological deserts of pine plantations
Loss of soil (along with the boll weevil)
nearly eliminated productive
agriculture in the Southern Piedmont after the 1920’s – now most of the Piedmont is in industrial pine
plantations because it can no longer
support productive agriculture
56
Social
JusticeYou can help!!!
57
Compassionate Thinking
• What can you do to help???
58
Compassionate Thinking
• What can you do to help???
59
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
60
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
61
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
62
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
63
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
64
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
65
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
66
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
67
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
68
Soil:
A dynamic natural body in which plants grow, composed of mineral and organic materials, air, water,
and living organisms
69
Soil Forming Factors:
Parent MaterialClimate
Living OrganismsTopography
Time
All soil forming factors interact!!!
70
Parent Material
• The substrate from which soil forms
• May be bedrock or some deposited material (sediments, organic material…)
• Determines soil texture, mineral content
• Influences soil structure and pH
71Igneous rocks form from molten rock
Sedimentary rocks form from deposited
materials
72
Metamorphic rocks form from igneous or sedimentary rocks that have been altered by heat and pressure
73
In the Charleston area, our soils form from unconsolidated Coastal Plain sediments
74
Critical Thinking
• Why???
75
Critical Thinking
• Why???
76
77
78
PM determines
soil texture = percentage of sand, silt and
clay
Loam soils have ~ equal percentage of each texture
class
79
CLAY
80
Clays are especially important
• Tiny (<2um)Huge surface area per unit mass (1000X more
than same volume of sand)
• Typically platy in structure = vast additional internal surface area (800 m2/gm)
• Typically clay minerals carry a negative charge
81
Critical Thinking
• Why is a huge surface area of negative charge important to soil fertility???
82
Critical Thinking
• Why is a huge surface area of negative charge important to soil fertility???
83
Most clays carry negative charge on both external
and internal surfaces
84
Cation Exchange – remember the root cap – protons displace cations
85
Texture also influences soil
moisture – clays hold onto more
water
Small pore size and negative
charge
Relationship between soil texture, field capacity and
water availability
86
Hands On• Determine soil texture• Take some soil from your jar and dampen
slightly – use the flow chart• Mix the soil with your hands – can you make
a firm ball of soil???• Can you make a ribbon of clay with your
fingers???• Rub a bit of soil between your fingers – can
you feel the grit of sand??? The powder of silt and clay???
87
Hands On
• Add water to your jar and shakeHave a ruler ready
• Set the jar down and mark the timeMeasure sediments after 40 seconds = sandMeasure again at 30 minutes = sand + siltRemainder is clay – we may have to wait until
tomorrow to get final measurementsDivide the depth of each layer by the total to get
percentage of sand, silt and clayUse textural triangle to determine soil texture
88
Parent materials
are weathered
by other soil forming
factors to form soil
89
Soils are typically
layered, in horizons,
because of downward movement of water, clays, etc
90
Critical Thinking
• Which soil horizon has the most biological activity???
• Why???O
A
B
C
91
Critical Thinking
• Which soil horizon has the most biological activity???
• Why???
92
“A” Horizon
The topsoil is the most
biologically active horizon – more air, water
and organic materials from
the surface
93
Soil Profile – a cut that reveals the horizons
94
Climate
• Primarily temperature and precipitation patterns
• Temperature controls freeze-thaw cycles that contribute to physical weathering
• Temperature also affects the rate of biochemical reactions
• Temperature also affects the rate of decomposition by fungi, bacteria, and other living organisms
95
Climate
• Precipitation contributes to soil moisture, which affects plant growth and the activity of decomposing organisms
• Precipitation affects erosion (the physical loss of soil particles) and leaching (chemical losses from the soil solution as water passes through the soil – this contributes to profile formation)
96
Major biomes are determined by climate – microclimate is also important in soil development
97
Living Organisms
• Macro-organisms, including plants and animals
• Micro-organisms, including bacteria, fungi, single-celled “protists”, and micro-fauna
• Human activity typically results in abrupt and very negative changes to soil
98
Living Organisms – Plants
• Contribute organic material – both from above (shoots) and below (roots), and both sources affect horizonation
• Help to mix the soil – root channels, wind throws
• Cycle nutrients from soil to plant and back (sometimes through animals, always through decomposers)
• Help prevent soil erosion by breaking the force of rain, providing a litter layer
99
Same parent material will
develop into a different soil
under different plant communities
100
Critical Thinking
• Why are grassland soils so dark at the surface???
101
Critical Thinking
• Why are grassland soils so dark at the surface???
102
Living Organisms – Animals
• Contribute organic material when they die
• Contribute to nutrient cycling
• Help to mix the soil by burrowing, some even “eat” soil (earthworms)
103
Critical Thinking
• How do animals contribute to nutrient cycling???
104
Critical Thinking
• How do animals contribute to nutrient cycling???
105
106
Living Organisms – Micro-orgs
• Decompose organic material, cycle nutrients, add OM
• Trillions/kg of soil (double handful of soil….)• N-fixing bacteria = supply virtually all N for
plant growth, either free living or in nodulethe nitrogen paradox….bacteria convert
atmospheric N to forms suitable for plant uptake• Mycorrhizae = mutual symbiotic association
between fungi and roots, present in most plants, required by some
107
Small animals, soil dwelling micro-fauna, fungi, bacteria, and other micro-organisms decompose dead
OM, cycling nutrients back into the soil
108
Living Organisms – Micro-orgs
• Decompose organic material, cycle nutrients, add OM
• Trillions/kg of soil (double handful of soil….)• N-fixing bacteria = supply virtually all N for
plant growth, either free living or in noduleThe nitrogen paradox….bacteria convert
atmospheric N to forms suitable for plant uptake• Mycorrhizae = mutual symbiotic association
between fungi and roots, present in most plants, required by some
109
N-fixing bacteria in symbiotic mutualisms, mostly with legumes
110
N-fixing bacteria in trees!
• Mosses on old-growth trees in the coastal Pacific Northwest forests host significant populations of N-fixing cyanobacteria
• Rain washes the nitrogen into the soil• Trees absorb from soil• Trees > 100 years old
Must be old for moss• Published 2011
http://www.sciencedaily.com/releases/2011/06/110607121144.htm
111
Living Organisms – Micro-orgs
• Decompose organic material, cycle nutrients, add OM
• Trillions/kg of soil (double handful of soil….)• N-fixing bacteria = supply virtually all N for
plant growth, either free living or in nodulethe nitrogen paradox….bacteria convert
atmospheric N to forms suitable for plant uptake• Mycorrhizae = mutual symbiotic association
between fungi and roots, present in most plants, required by some
112
Critical Thinking
• What do you think mycorrhizae might contribute to the symbiosis???
113
Critical Thinking
• What do you think mycorrhizae might contribute to the symbiosis???
114
Mycorrhizae are symbiotic mutualisms between fungi and plants – fungal hyphae vastly
increase surface area for water and nutrient absorption – 85% of plants depend on them
115
Hands On
• Shake up class sample of soil / water to mix• Examine a drop of soil “solution” for
microorganisms
116
Living Organisms – The human impact
• Removing vegetation dramatically increases erosion, cultivation exacerbates
• Deforestation can snap hydrological cycles• Excessive fertilizer and pesticide use
contaminates both soil and water• Improper irrigation salinates soil• Wetland drainage damages wetland soils• and on….
117
Topography – the shape of the land
118
Topography – the shape of the land
• Determines the movement of water, thus affecting erosion and leaching rates
• Determines where water accumulates, which affects soil moisture, which affects organismal activity, which affects soils….
• Aspect affects the amount of solar radiation at the surface, and thus soil temperature
• Large topographic features influence precipitation patterns
• Even micro-topography influences plant distribution
119
Topographic Aspect – red and blue face S and W; green and
yellow face N and E
120
Critical Thinking
• Why are the north and east slopes of a hill cooler???
121
Critical Thinking
• Why are the north and east slopes of a hill cooler???
122
Topography – the shape of the land
• Determines the movement of water, thus affecting erosion and leaching rates
• Determines where water accumulates, which affects soil moisture, which affects organismal activity, which affects soils….
• Aspect affects the amount of solar radiation at the surface, and thus soil temperature
• Large topographic features influence precipitation patterns
• Even micro-topography influences plant distribution
123
Orographic lifting makes it rain
124
Critical Thinking
• What the heck is orographic lifting and why does it cause rain???
125
Critical Thinking
• What the heck is orographic lifting and why does it cause rain???
126
Critical Thinking
• What the heck is orographic lifting and why does it cause rain???
127
Orographic lifting causes cooling and precipitation, rain shadow to the leeward
128
Topography – the shape of the land
• Determines the movement of water, thus affecting erosion and leaching rates
• Determines where water accumulates, which affects soil moisture, which affects organismal activity, which affects soils….
• Aspect affects the amount of solar radiation at the surface, and thus soil temperature
• Large topographic features influence precipitation patterns
• Even micro-topography influences plant distribution
129
Small change in elevation…
…big change in the plant
community!
Images showing pond embedded within longleaf pine community
130
Hands On
• Let’s go outside for this one….• Trays of soil at different slopes to
demonstrate erosion x slope + erosion vs. leaching
• Pour water from same height and at same rate on different slopes
131
Time….
• The length of time all these factors have been acting determines the characteristics of the soil
• The same parent material will develop different soils as time passes
• Major component of primary succession
132
Soil development on glacial till
133
Soil Forming Factors:
Parent MaterialClimate
Living OrganismsTopography
Time
Remember – all soil forming factors interact!!!
134
The Rhizosphere
The area of interaction between root and soil.A huge volume of soil, but a very narrow zone
135
The rhizosphere is the zone of cation exchange, nutrient and water uptake
136
The Rhizosphere
• Complex zone with many interacting factors• Plant affects soil through compounds
secreted by the plant’s roots• Relative proportions of nutrients in the soil
solution can affect uptake of all nutrients• Also, different species have different
nutrient requirements• Rhizosphere is the control zone for
plant/soil interactions
137
Some plants use alternate methods to absorb some nutrients
• Parasites, saprophytes, carnivores
138
Key Concepts: QUESTIONS???
• ResourcesWhich are requiredHow they are used
• Essential elementsWhat they areWhat they do
• Soils and soil forming factors• The rhizosphere• Some alternate methods to acquire
nutrients
139
Hands On
• What can you tell from this data???
140
Extra Credit
• Putz around on the USDA soils site• http://
soils.usda.gov/education/resources/college/index.html