Mineral Nutrition chapter 4 Mineral Nutrition How plants

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Mineral Nutrition (chapter 4)

Mineral Nutrition (chapter 4)

Mineral Nutrition How plants acquire and use mineral nutrients 1. Why is mineral nutrition

Mineral Nutrition How plants acquire and use mineral nutrients 1. Why is mineral nutrition important? 2. What are the essential mineral nutrients? • classification systems 3. Mineral nutrients in the soil • nutrient availability • adsorption to soil particles • effects of p. H 4. Roots and mineral nutrient acquisition • root structure • depletion zones 4. Mycorrhizae 5. Nitrogen - the most limiting soil nutrient

Why is mineral nutrition important? 1. Fertilization increases crop production Crop Yield, tons/hectare Fertilizer

Why is mineral nutrition important? 1. Fertilization increases crop production Crop Yield, tons/hectare Fertilizer used, kg/hectare

Add more fertilizer nitrogen, get more crop production. Crop Yield, tons/hectare Nitrogen added, kg/hectare

Add more fertilizer nitrogen, get more crop production. Crop Yield, tons/hectare Nitrogen added, kg/hectare

Trends in global use of fertilizer N, P, & K

Trends in global use of fertilizer N, P, & K

Why is mineral nutrition important? 2. In most natural soils, the availability of mineral

Why is mineral nutrition important? 2. In most natural soils, the availability of mineral nutrients limits plant growth and primary productivity. Nutrient limitation is an important selective pressure and plants exhibit many special traits related to the need to acquire and use mineral nutrients efficiently.

2. What are the essential mineral nutrients? Macronutrients - present in relatively high concentrations

2. What are the essential mineral nutrients? Macronutrients - present in relatively high concentrations in plant tissues. N, K, P, Ca, Mg, S, Si Nitrogen is most commonly limiting to productivity of natural and managed soils. Phosphorus is next most limiting, and is most limiting in some tropical soils. Micronutrients - present in very low concentrations in plant tissues.

All mineral nutrients together make up less than 4% of plant mass, yet plant

All mineral nutrients together make up less than 4% of plant mass, yet plant growth is very sensitive to nutrient deficiency. Not considered mineral nutrients

Micronutrients are present in very low concentrations ppm Very low concentrations, but still essential

Micronutrients are present in very low concentrations ppm Very low concentrations, but still essential because of specialized roles in metabolism

How to classify all of these macro and micro nutrients? By biochemical function

How to classify all of these macro and micro nutrients? By biochemical function

3. Mineral nutrients in the soil Larson

3. Mineral nutrients in the soil Larson

Soils particles are generally negatively charged and so bind positively charged nutrient ions (cations).

Soils particles are generally negatively charged and so bind positively charged nutrient ions (cations). Cation Exchange Capacity refers to a soil’s ability to bind cations. NH 4+, NO 3 -, Cl-, PO 4 -2, SO 4 -2

Soil p. H influences availability of soil nutrients.

Soil p. H influences availability of soil nutrients.

4. Roots and mineral nutrient acquisition Fine roots and root hairs “mine” the soil

4. Roots and mineral nutrient acquisition Fine roots and root hairs “mine” the soil for nutrients. Mycorrhizal hyphae do this even better.

Fig. 5. 7

Fig. 5. 7

Fig. 5. 8

Fig. 5. 8

More on Nitrogen • Why is N so important for plant growth? • What

More on Nitrogen • Why is N so important for plant growth? • What percentage of the mass of plant tissues is N? • What kinds of compounds is N found in? • Why is there a strong relationship between the N concentration of leaves and photosynthesis?