Lecture 11: Chapter 7- Soil Acidity, Alkalinity, Salinity, Sodicity Flashcards
Where are alkaline soils found relative to climate?
Grasslands and dryer climates have higher soil pH (alkaline)
how to fix saline soils
-overirrigation so water can wash salt out of the rooting zone
-adding gypsum provides competition from calcium
-plant more salt tolerant plants
-plant deep rooted plants to add more air
Explain how an alkaline soil pH affects the availability/toxicity of plant macro- and micronutrients
UNSTABLE SOIL STRUCTURE, FE AND P DEFICIENCY
-Alkaline soils have available plant nutrients
-Increased amounts of Ca, Mg, Mo
-Phosphorus, Iron, and Manganese precipitate
Explain how alkaline soils can be improved for agricultural use or managed to reduce to risk of erosion
-adding organic matter or compost
Discuss how soil pH affects the activity and composition of the soil microbial community and availability of plant nutrients
-Fungi easily available with wide range of pH
-Bacteria and plant nutrients less available at lower pH
-Phosphorus, Iron, and Manganese ten to precipitate at low and high pHs (not at neutral)
-Increase of Al, Fe, Mn, and Zn at lower pHs
Explain the term base saturation and why Al3+ is considered an acidic cation
base saturation:
Al3+ ions have a strong tendency to hydrolyze, splitting water molecules into H+ and OH- ions, and to form hydroxy Al ions.
active acidity
defined by the H+ ions activity on the soil solution. determines the solubility of many substances and provides the soil solution environment to which plant roots and microbes are exposed
List the 3 dominant soil pH buffering systems and their approximate pH range
Buffered by aluminum compounds: pH 3-4.5
Buffered by cation exchange and pH dependent charge sites: pH 4.5-7
Buffered by carbonates: pH 7-9
Describe where acid soils are found relative to climate, and how the typical range of soil pH associated with specific vegetation types/land use
Humid and Temperate climates that have a wet climate, like the east coast, have acidic soils
List processes that result in the acidification of soils and how they have been accelerated by humans
-ADDING ORGANIC MATTER
-OXIDATION OF N AND S FERTILIZERS
-ALUMINUM
-CATIONS LOSS VIA PLANT UPDATE OR LEACHING
-WET AND DRY ACID DEPOSITION FROM THE ATMOSPHERE
-ACID RAIN
Explain how soil acidity affects the availability/toxicity of plant macro- and micronutrients
LOSS OF MACRONUTRIENTS (Ca, Mg,K) Al TOXICITY, P DEFICIENCY
Explain how acid soils can be improved for agricultural use or managed to protect ground and surface waters
-raising soil pH by liming
-amelioration of Al toxicity= not changing pH by adding gypsum or organic matter to get rid of Al
-for agricultural use: ash creates a lot of Ca (calcium) so people have been adding ash to their soils to increase pH for farming
Acidifying process equation
CO2 + H2O -> H2CO3 <-> HCO3 - + H+ <-> CO3 2- + H+
(Carbon dioxide-> carbonic acid-> bicarbonate->carbonate)
How is carbon dioxide produced?
-[in atmosphere] respiration of plants and animals and combustion processes (~400ppm)
-[in soil] respiration
Acidification of soils: organic matter
-adding organic matter to soils acidifies them (like adding mulch, fertilizer, and sewage sludge)
-soil organic matter contains a lot of functional groups from which H+ ions can dissociate. they can form soluble complexes with non-acidic cations (Ca2+, Mg2+) and facilitate their leaching
