Chemical Characteristics of soil SAQ's Q ^0 A.docx

Transcript

What is the effect of adding organic matter to a soil with poor CEC,
such as sand?

ANSWER: Increases CEC

What is the optimum pH range for most plants, and why is lime added to
acidic soils?

ANSWER: pH 5.5-7.5; to increase available Ca cations and reduce H⁺ ions

What determines the acidity of a soil?

ANSWER: Concentration of acidic ions (H⁺, Al³⁺) adsorbed onto the soil
surface

What is the effect of liming on soil pH and CEC?

ANSWER: Increases pH and CEC by providing more Ca cations for exchange
and increasing negative charges on soil colloids

What is the primary reason why cations such as Ca2+ and Mg2+ are
attracted to soil particles?

ANSWER: Soil particles have a negative charge, and cations are attracted
to these negative charges.

How do polarised water molecules contribute to the formation of
floccules?

ANSWER: Polarised water holds soil particles together, trapping larger
sand and silt in a floccule structure.

What is the significance of Cation Exchange Capacity (CEC) in soil?

ANSWER: CEC is the ability of the soil to adsorb cations onto its
surface and exchange them for other cations.

What is the benefit of humus having a higher Cation Exchange Capacity
than clay?

ANSWER: Humus can adsorb more cations, which are then available for
exchange with other cations, making it a more fertile soil component.

How do plant roots remove cations from the soil solution?

ANSWER: Plant roots absorb cations from the soil solution, removing them
from the soil.

What is the significance of flocculation in soil structure?

ANSWER: Flocculation improves soil structure by forming larger
aggregates, allowing for better water infiltration and aeration.

Why is high humus content more beneficial than high clay content in
soil?

ANSWER: Humus has a higher Cation Exchange Capacity, holds more water,
is more fertile, encourages more earthworm activity, and has more
negative charges, leading to a higher rate of flocculation.

Why does the addition of organic matter, such as slurry or seaweed, to a
sandy soil increase its Cation Exchange Capacity (CEC)?

ANSWER: Because the organic matter increases the number of negative
charges on the soil colloids, allowing more cations to be exchanged.

Why is soil pH critical in determining the availability of cations for
plant uptake, and what is the optimal pH range for most plants?

ANSWER: Soil pH affects the availability of cations, as many are
unavailable at low pH. The optimal pH range for most plants is 5.5-7.5,
where most cations are available.

How does liming a soil with low pH affect its Cation Exchange Capacity
(CEC), and what is the primary benefit of doing so?

ANSWER: Liming increases the pH, which increases the negative charges on
soil colloids, thus increasing the CEC. The primary benefit is reducing
\'acid leaching\' and making more cations available for exchange.