Carnivorous (insectivorous) plants are mainly found in nitrogen deficient soil. To make up the nitrogen deficiency, they have developed insect trapping mechanism in which leaves have taken the shape of a pitcher containing insect digesting proteolytic enzymes. They trap insect and absorb the nitrogen derived from them.

Plant can tolerate a specific amount of micronutrients. A slight lesser amount of it can cause deficiency symptoms and a slight higher amount can cause toxicity. The mineral ion concentration which reduces the dry weight of the tissues by $10 \%$ is called toxic concentration.

This concentration is different for different micronutrients as well as for different plants, e.g., $\mathrm{Mn}^{2+}$ is toxic beyond $600 \mathrm{ogg}^{-1}$ for soyabean and beyond $5300 \mathrm{ogg}^{-1}$ for sunflower.

It has also been observed that the toxicity of one micronutrient causes the deficiency of other nutrients. To overcome such problems, farmers should use these nutrients in prescribed concentration so that the excess uptake of one element do not reduce the uptake of other element.

(a) The plants try to supply more nutrients to its younger leaves than the older leaves. When nutrients are mobile, the deficiency symptoms are shown by the older leaves first because that particular nutrient reaches the top first and lower leaves does not get that nutrient.

(b) Highly mobile elements are P, K and Mn. Less mobile elements are $\mathrm{Ca}^{+}$and $\mathrm{K}^{+}$.

(c) The aspect of mobility of essential elements is important in horticulture and agriculture in the following ways

(i) A crop in which older leaves are harvested if show deficiency symptoms, will decrease its economic value.

(ii) The crops in which flowers, fruits and inflorescence are harvested, the immobile nutrients will not reach to the apex/tip because of immobility, so this will reduce the yield.

(a) Artificial induction in leguminous and non-leguminous plants have been tried by scientists. It's success rate is very low because gene expression is highly specific phenomenon.

Even if desired gene is introduced, it may not work because conditions for its expressions are very specific.

(b) Symbiotic mutualistic relationship (mutualism) is found between the pine roots and mycorrhiza as both are benefitted mutually.

(c) Yes, microbe has to be in close association, to develop a physical relationship for example Rhizobium gets into the root and involve root tissues, then only helps in nitrogen-fixation.

An element is essential to plants if it is necessary for supporting its normal growth and reproduction. The requirement of this element must be specific and is not replaceable by any another element in the soil. They must be directly involved in the metabolism of the plant.

Criteria for Essentiality

An element can not be considered as essential merely on the basis of its presence in the plant. It is considered essential on the basis of the following criteria

(i) The plant is unable to grow normally and complete its life cycle in the absence of the element.

(ii) The element is specific and can not be replaced by another element.

(iii) The element plays a direct role in the metabolism of the plants.

The essential elements are further classified into two categories

(a) Macroelements These are the elements required by plants in larger quantities. These are $\mathrm{C}, \mathrm{H}, \mathrm{O}, \mathrm{N}, \mathrm{P}, \mathrm{K}, \mathrm{Mg}, \mathrm{Ca}$ and S .

(b) Microelements (Trace elements) These are required by plants in low quantities (often less than 1 ppm). These include B, $\mathrm{Zn}, \mathrm{Mn}, \mathrm{Cu}, \mathrm{Mo}, \mathrm{Cl}, \mathrm{Fe}$ and Ni.