1. Gardening in Nevada’s SoilsGardening in Nevada’s Soils

2. Gardening in Nevada’s SoilsGardening in Nevada’s Soils
What is healthy soil?
How does soil form?
Soil has many components:
– Textural or structural
– Biological
– Chemical
How can you improve your soil?

3. OSU Extension Service
Healthy soil has:Healthy soil has:
Good porosity
Good drainage
Good water-holding capacity
Good tilth, meaning they’re
easy to work
Lots of organic matter
Lots of organisms
A pH of about 7
Low salinity and sodium levels

4. How are soils formed?How are soils formed?
A. Miller

7. Nevada SoilsNevada Soils
Many challenges
– Climate
– Organisms
– Parent material
– Time
– Topography

11. comcast.net

13. Young streamYoung stream

14. Middle-aged streamMiddle-aged stream

15. Mature streamMature stream

16. Very mature streamVery mature stream

18. scioly.org

19. ucanr.org

21. It’s not your fault!It’s not your fault!
You didn’t do anything wrong!
We have very young soils geologically
Their youth makes them:
– Highly variable both vertically and
horizontally
– Low in organic matter
– Still a work in progress

22. Compare horizonsCompare horizons
OSU Extension Service

23. What are soils made of?What are soils made of?
Minerals
Air
Water
Organic matter
(humus)
www.statlab.iastate.edu
USDA NRCS

24. Water = 20 to 30%
Air = 20 to 30%
Mineral
Fraction
(sand, silt,
clay) = 45 to 50%
Organic Matter = 0 to 5%
““Ideal” composition of a soilIdeal” composition of a soil

25. SoilSoil
mineralsminerals
texturaltextural
classesclasses
A. Miller

26. TheThe
dreadeddreaded
soilsoil
texturaltextural
triangle!triangle!
A. Miller

27. NRCS, Bozeman Mont.
TexturalTextural
triangletriangle
for thefor the
graphicallygraphically
challengedchallenged

28. Texture by feel: SandTexture by feel: Sand
Adapted from NRCS, Bozeman Mont. by A. Miller

29. Texture by feel: Loamy sandTexture by feel: Loamy sand
Adapted from NRCS, Bozeman Mont. by A. Miller

30. Texture by feel: Loams and claysTexture by feel: Loams and clays
Adapted from NRCS, Bozeman Mont. by A. Miller

31. Why determine soil texture?Why determine soil texture?
Soil texture influences:
Ease of tillage
Amount of pore space or porosity
Water infiltration rates
Water-holding capacity
Soil fertility or nutrient-holding capacity

32. WaterWater
spreadsspreads
differentlydifferently
inin
differentdifferent
soilsoil
texturestextures
Deepest
penetration
Moderate
spread and
infiltration
Wide, but more
shallow, infiltration
  
CLAY
SILT
SAND

33. In this
experiment,
an equal
amount of
water was
applied to
three soil
types.
NRCS, Bozeman, Mont.
Soil texture affects infiltrationSoil texture affects infiltration

34. Note the amount of
water that drained
from the sandy loam
soil.
NRCS, Bozeman, Mont.
Soil texture affects infiltrationSoil texture affects infiltration

35. Less water has
drained from the silty
clay loam soil.
Soil texture affects infiltrationSoil texture affects infiltration
NRCS, Bozeman, Mont.

36. The loam soil
drained almost as
much as the sandy
loam.
Soil texture affects infiltrationSoil texture affects infiltration
NRCS, Bozeman, Mont.

37. Soil texture and infiltrationSoil texture and infiltration
Soil texture
Infiltration rate,
inches per hour
Sand 2 - 4
Sandy loam 1 - 3
Silt loam, loams 0.25 – 1.5
Silty clay loams, clay 0.1 – 0.3
A. Miller

38. Sand versus ClaySand versus Clay
Clay - “Heavy” soil
- High water-holding capacity
- Slow infiltration
- High nutrient-holding capacity
Sand - “Light” soil
- Low water-holding capacity
- Fast infiltration
- Low nutrient-holding capacity

39. Water InfiltrationWater Infiltration

40. Where do plants get their waterWhere do plants get their water
from in the root zone?from in the root zone?
Adapted from PNW 475 by A. Miller

41. Soil textureSoil texture
Sandy soil watering tipsSandy soil watering tips
 Emitters close to the
plant
 Higher volume per
hour emitters
 Low duration
 Increased frequency
Clay soil watering tipsClay soil watering tips
 Emitters further from
the plant
 Lower volume per
hour emitters
 Higher duration
 Lower frequency

42. Can you change soil texture?Can you change soil texture?
No, not really!
Add sand to clay – mess!
Add clay to sand – mess!
Texture may limit your
plant choices
How can you improve
your soil texture? – add
organic matter!

43. Soil organic matter consists of:Soil organic matter consists of:
Living
organisms
Dead organisms
Plant matter
Other
decomposing
organic
materials
UNCE, Reno, Nev.

44. Benefits of soil organic matterBenefits of soil organic matter
Improved water infiltration
Increased water- and nutrient-
holding capacity
Formation of soil into stable
aggregates
Reduced soil compaction

45. Nutrient-holding capacityNutrient-holding capacity

46. Water moleculeWater molecule

47. NutrientsNutrients
held in theheld in the
soil aresoil are
availableavailable
for plantfor plant
growthgrowth
lesco.com

48. Soil StructureSoil Structure

49. Platy
structure
Granular
structure
www.statlab.iastate.edu/soils/
Soil structure:Soil structure:
How particles are grouped together into
stable collections by organic matter “glue,”
also called “peds” or soil aggregates

50. Composition of a compacted soilComposition of a compacted soil
Note the reduced air space in a
compacted soil.
Before After
70%50%

51. Soil CompactionSoil Compaction

52. Soil compactionSoil compaction

53. Avoid walking or driving on wet soil
Avoid working wet soil
OSU Extension Service

54. extension.umn.edu
The wetterThe wetter
the soil, thethe soil, the
worse theworse the
compactioncompaction
effect byeffect by
mechanizedmechanized
equipmentequipment

55. Adding organic matter:Adding organic matter:
Improves water infiltration
Increases water- and nutrient-holding
capacity
Forms soil into stable aggregates
Reduces soil compaction
 Also – feeds soil biota!

56. USDA NRCS
The living soilThe living soil

57. wormworm
USDA NRCS

60. Add organic matter to your soilAdd organic matter to your soil
OSU Extension Service
What kind of organic matter?
Composted or well-aged OM

61. What about manure?
OSU Extension Service
Uncomposted manure can be high in salts
(burns plants and seeds) and can contain weed
seeds, diseases, and insect eggs and larva.

62. Household vegetable debris and
grass clippings can also be used
to make compost
UNCE Reno, Nev.

64. Types of compostingTypes of composting
Slow composting
– Less labor intensive
– Slower product production
– Good for folks that produce low volumes
Fast composting
– More labor intensive
– Quicker production
– Good for folks that produce higher volumes

65. Types of compostersTypes of composters
Compost piles
– Can be messy
– Easy access for animals
– Harder to turn?

66. Types of compostersTypes of composters
Compost tumblers
Bin composters
– Neater, cleaner

67. Steps to creating a compost pileSteps to creating a compost pile
Pick a site
– Level, well-drained
– Build on bare soil for
bacteria
– Shade
– Near water and source
of raw materials
– Esthetically pleasing?

68. Steps to creating a compost pileSteps to creating a compost pile
Pile size
– Cool or slow composting
– Hot or active composting
• At least a cubic yard (3’ x 3’ x 3’)
• Not more than 5’ cube

69. Steps to creating a compost pileSteps to creating a compost pile
Ingredients
– Ratio of 1:2 (1:1) green to brown material
– Finer the size, quicker to compost
– Too fine and it will compact 1-1.5” is best
– Sprinkle some soil or finished compost
every 8 to 12 inches as you build the pile

70. What to CompostWhat to Compost
Green Materials
– Grass clippings
– Animal manure (from herbivores only)
– Non-animal-based kitchen wastes
– Garden trimmings
Dry or Woody (“Brown”) Materials
– Fall leaves, dry cornstalks
– Wood chips or sawdust (caution)
– Hay or straw (soiled or clean)

71. WhatWhat notnot to compostto compost
 Yard trimmings or grass clippings treated with
pesticides. They may kill the beneficial organisms in the
compost pile or later in your garden.
 Weeds, if the pile will not be hot enough to kill the
seeds.
 Diseased or insect-infested plant parts. The diseases or
insects may be transferred to the soil with the compost.
 Parts of any plant known to contain poisons or toxins,
such as black walnut.
 Fats, grease, lard or oils. These do not break down
quickly and may attract pests, vermin, dogs or large
carnivores.
 Meat or fish bones or scraps. Dairy products.

72. Oh dear!Oh dear!

73. WhatWhat notnot to compostto compost
 Too much of any plant that contains tannins or resins
that inhibit decomposition, such as junipers, pine,
spruce, arborvitae, oak or cottonwood.
 Charcoal ash, as this may contain substances harmful
to plants.
 Fireplace ashes, since they have a very high pH, as do
our native soils. High pH levels can result in nutrient
deficiencies and other plant problems.
 Pet wastes, such as dog or cat feces or soiled cat litter.
They may contain parasites, bacteria or viruses harmful
to humans.
 Swine or other omnivore wastes. They also may contain
parasites, bacteria or viruses harmful to humans.

74. Steps to creating a compost pileSteps to creating a compost pile
A
d
d
W
a
t
e
r

75. Steps to creating a compost pileSteps to creating a compost pile
Mix the pile
– Weekly for hot or active composting
– Whatever for slow or cool composting
– Should reach 120 to 160 degrees
– After 6-8 weeks of cooking, pile needs to
cure for another 4-8 weeks
– Turn pile while it is curing also

76. Preventing problemsPreventing problems
Nuisance insects and
animals
Food wastes can attract
them
May need to vermiculture
or worm compost or
compost tumble high
volumes of food wastes

77. Compost troubleshootingCompost troubleshooting

78. Composting Pros and ConsComposting Pros and Cons
PROS
 Recycle nutrients back
into your soil
 Reduces waste to your
garbage can and landfill
 It is a cost-effective
method of improving
your soil
 Get good at producing
it, you will have many
friends wanting some
CONS
 Can be messy and/or
smelly
 Can be labor intensive
 Can attract vermin,
predators, stray dogs, etc.
 Can be weather dependent
 Do you have space?
 Do you have time to
manage?

79. What if I don’t want toWhat if I don’t want to
compost?compost?
How about buying organic matter to add
to my soil?
– Steer manure
– Compost
– Worm castings
– “Triple mix”
– Neighbor’s horse manure
– “fill dirt”

80. Use caution adding soilUse caution adding soil
amendments!amendments!

81. Amendment Pros and ConsAmendment Pros and Cons
PROS
 Good quality organic
matter amendments will
improve your soil
 No down time
 Less labor involved
CONS
 Good quality organic
matter amendments
cost $
 May be introducing a
new problem
– Weed seeds
– Insect eggs or larva
– Diseases

82. Add “pantryAdd “pantry
shelves” -shelves” -
nutrientsnutrients
are held inare held in
the soil onthe soil on
organicorganic
mattermatter
particlesparticles
lesco.com

83. Chemical Properties of SoilChemical Properties of Soil
pH – potential of Hydrogen
EC – Electrical Conductivity
Nutrient content (plant nutrients)

84. pHpH
Indicates relative acidity or alkalinity
pH 7 = neutral; less than pH 7 = acid;
more than pH 7 = alkaline or basic
Adapted from library.thinkquest.org by A. Miller

85. pH – Potential of HydrogenpH – Potential of Hydrogen
Measure of the amount of hydrogen
Negative logarithm of hydrogen ion
activity - 1 pH point is a ten-fold change
pH of 7 = 1.0 x 10-7
hydrogen ions equal
H+
and OH-
ions
pH of 3 = 1.0 x 10-3
Hydrogen ions
more H+ than OH- acidic
pH of 10 = 1.0 x 10-10
Hydrogen ions more
OH-
than H+
alkaline or basic

86. Soil pHSoil pH
andand
nutrientsnutrients
Adapted from www.soil.ncsu.edu by A. Miller
Widest part of the bar indicates maximum availability

87. Can I change my soil pH?Can I change my soil pH?
Not really – our soils are alkaline
Limestone (calcium carbonate) buffers
our soils
CaCO3 + 2HCl = 2Cl-
+ Ca+2
+ H2O + CO2 (gas)
Can add sulfur, but takes time to lower
pH and change is not always not
permanent

88. EC or Electrical ConductivityEC or Electrical Conductivity
Measures how well soil conducts an
electric current
Salts that dissolve in water conduct
electricity
Plants need some “salts” – these are
nutrients
Very high EC = high salt content
If salt contents are high, it can interfere
with plant growth

90. Classifying salt-affected soilsClassifying salt-affected soils
Electrical conductivity measurements (EC)
Exchangeable sodium percentage (ESP)
Salt-affected soils are commonly classified
for management purposes into three
groups: saline, sodic, and saline-sodic
based on EC and ESP

91. What to do aboutWhat to do about
salt-affected soil?salt-affected soil?
If you have tested and find you have salt-
affected soil:
– Flush the soil with water to wash the salt
down below the growing zone
Problem:
– High water tables, poorly drained soil and
high salt content irrigation water are often
the cause of or contribute to high salinity

92. Managing salt-affected soilsManaging salt-affected soils
Select plants that can tolerate salinity
Avoid excess or salty forms of
fertilizers
Incorporate organic matter
If appropriate, add sulfur to lower the
pH
If a serious problem, go to raised beds
with good drainage

93. A word about gypsumA word about gypsum
Gypsum is CaSO4
.
H2O
Good source of Calcium and Sulfur
Good for Sodium-Affected Soils
NOT a panacea for clay soils!
Too much Ca can interfere with
chemical balance in soil and can
contribute to a magnesium deficiency
and interfere with other micronutrient
availability

94. Sulfur:Sulfur:
• Essential plant food for production of
protein
• Promotes activity and development of
enzymes and vitamins
• Helps in chlorophyll formation
• Improves root growth and seed production
• Helps with vigorous plant growth and
resistance to cold

95. Plant nutrientsPlant nutrients
Substances necessary for plant growth
Plants make their own food – these are
the vitamins and minerals plants need to
make their food and to grow
Excess or improper use of fertilizers
may result in plant damage and water
pollution
Split into two groups, based on the
amount of the nutrients the plants need
to survive and thrive

96. MacronutrientsMacronutrients
N = nitrogen
P = phosphorus
K = potassium
H = hydrogen
O = oxygen
C = carbon
Ca = calcium
Mg = magnesium
S = sulfur

97. MicronutrientsMicronutrients
Fe = iron
Mn = manganese
Zn = zinc
B = boron
Mo = molybdenum
Ni = nickel
Cu = copper
Co = cobalt
Cl = chlorine

98. How do we add nutrients?How do we add nutrients?
Minor amounts in compost
Minor amounts in soil “amendments”
Generally added as fertilizer

99. Types of fertilizersTypes of fertilizers
Chemical fertilizers
Organic fertilizers or amendments
(bone meal, compost, manure, etc.)
www.farmphoto.com

100. Complete vs incomplete fertilizerComplete vs incomplete fertilizer
“Complete” fertilizers contains the top 3
nutrients, like 16-16-16 general fertilizer:
– Nitrogen (N)
– Phosphorus (P)
– Potassium (K)
– 4th
number, if present, is Sulfur (S)
“Incomplete” fertilizers do not contain the
top 3 nutrients, like Ammonium Sulfate
21-0-0

101. What’s inWhat’s in
the bag?the bag?
WAY TO GROW
FERTILIZER
28 – 14 - 5
GUARANTEED ANALYSIS
Total nitrogen 28%
6% Ammonium nitrogen
14% Urea nitrogen
Available phosphoric acid 14%
Soluble potash 5%
Derived from sulfur-coated urea,
etc.
Product name
NPK formula
Nitrogen content
Phosphorus content
Potassium content
Specific sources

102. How doHow do
I knowI know
what towhat to
add toadd to
mymy
soil???soil???
A. Miller
TestTest
youryour
soil!soil!

103. What should I test for?What should I test for?
Soil textural analysis
pH and salts
Soil nutrient content
Fertilizer recommendations
Call your local extension office for
a list of soil testing labs
What information does a normalWhat information does a normal
soil test provide?soil test provide?

104. Call the Lab FIRST!Call the Lab FIRST!
Find out what they test for
Find out if they have package deals
Find out how much sample they want
you to take
Find out how they want the sample
delivered to them
Call UNCE 784-4848 for list of labs

105. How to take a sampleHow to take a sample
First, select the
site. Your soil
sample should
represent only
one soil type or
soil condition.
OSU Extension Service

106. Each sample
should consist of
sub-samples taken
from about 5-15
locations within
the same soil type
or sampling area.
OSU Extension Service
How to take a sampleHow to take a sample

107. Use the “slice”
method for a
representative
sample.
UNCE, Reno, Nev.
How to take a sampleHow to take a sample

108. Erosion ControlErosion Control
Another method to manage soil
Soil takes time to form – you don’t
want to lose it!
Keep a cover on the soil – plants,
mulch, etc.
Provide for drainage paths and armor
them to reduce the potential for
erosion

109. Protect slopesProtect slopes

110. Redirect the rainRedirect the rain

111. Check irrigation oftenCheck irrigation often

112. How can I manage my soils toHow can I manage my soils to
improve them?improve them?
Increase the organic matter content
• Increases water- and nutrient-holding capacity
Avoid compaction by:
• Reducing tillage of wet soils
• Reducing traffic on wet soils
• Establish paths
Maintain cover with vegetation or mulch
to reduce potential for erosion
Fertilize when needed