The answer depends on how far back in the materials processing chain you go. For example, both systems are built from a wide variety of materials. These materials at some point were mined from the Earth. Your question is unclear, so I assume you are asking about raw natural resources consumed as part of the operation of the facility. CSP requires a water source for steam generation. PV requires only minimal operating resources (cleaning panels, etc).
Actually I was referring to like we need silica for solar cells for SPV/ CSP. Alike are there any natural resources that contribute highly to this process
Arif - I think the answer depends on what you mean by "highly". As I said, PV has almost zero operating inputs in terms of consumable natural resources. it's a collection of more or less glass plates mounted on metal frames with no moving parts. older PV farms used trackers to move the panels, but PV is so cheap now they simply add more panels to make up for the loss of efficiency of fixed panels. The remaining components are switchgear and copper cables. Lifetimes of panels run close to 50 years if maintained. Thats the beauty of PV. Simple, cheap, highly reliable, consume no natural resource to operate (other than water to clean them periodically). Silica is not consumed during operation only through manufacturing. If I had to guess, I'd say that water and hydrocarbons (to generate electricity) are the largest inputs to manufacturing a PV cell. definitely true of Aluminum. Rare earth elements are extracted as a byproduct of Tin mining. Epoxies used to encapsulate the panels and other components are made of polymers extracted from petroleum and some plants.
CSV plants are large servo controlled mirror farms that focus heat energy onto a boiler that produces steam to run turbines. Steel and other metals are the primary material, concrete, etc. with water as the main consumable material. There are likely some water treatment chemicals used to soften the water to prevent scale. Mostly sulphate salts, but others as well.
There is a lot of literature on the life cycle analysis (LCA) of solar energy systems. A LCA requires, among others, to describe the raw materials that are used to manufacture the systems. So this literature will be a good starting point for you.