In the last decades, considerable e

In the last decades, considerable emphasis has been placed on the use of a
wide array of chemicals purporting to favorably influence soil properties. Some
materials are produced directly for such purposes, while others are by-products of industrial processes.
Soil conditioners have potential importance in the arid and semi-arid
regions of the world where there is a developing awareness of the implications of soil erosion and inefficient water use. In recent years, much considerations were sent towards the possibility of using the biological conditioners to provide some economic assistance to the small and marginal farmers and to introduce a
judicious combination of linear and cyclic fertilization of soils, where the use of
biological conditioners reduces the resultant pollution to soil and plants together
in addition to their ability to improve both soil and plant properties (Banerjee &
Kumar, 1992; Silke et. al,. 2007).
Cyanobacteria are able to survive in extreme environments because of
unique adaptations such as their capability of fixing N2 (Paerl et. al.,1995;
Bergman et al., 1997) and their resistance to desiccation (Potts, 1996 & 1999).
Because of the ability to fix atmospheric nitrogen, cyanobacterial mats have been used as biofertilizer in modern agriculture (Mandal et. al., 1999; Ladha & Reddy, 2003). Moreover, cyanobacterial mats contribute to the overall ecosystem primary production and play a key role in nutrient cycle