SUMMARY Binding of solar energy in agriculture and its utilization by Hólmgeir Björnsson Rannsóknastofnun Landbúnaðarins Agricultural Research Institute Keldnaholti 112 Reykjavík The potential of crops for binding solar energy is discussed with regard to Icelandic growth conditions and the possibilities of us- ing plant material as fuel instead of fossil solar energy. In Iceland large amounts of energy per cap- ita are consumed and in 1977, 54% of the en- ergy came from fossil fuel. During the sum- mer, growth rate of the most productive plants (Table 3, Fig. 1) is similar to what is commonly found for C3-plants in other agr- icultural areas, but the growing season is shorter. The main crop in Iceland is hay. A rough estimate is that the animal products that are marketed account for only about 5% of the solar energy fixed by grass. More than one third of the energy is commonly left in the manure (Table 4). Part of this energy can be utilized, either directly as heat, or the manure can be fermented to produce gas rich in methane. In recent years considerable research has been devoted to the cultivation and utiliza- tion of plants as an energy source in the Nor- dic countries, with the exception of Iceland. Wood is being used more as fuel than when fuel prices were lowest. Straw is collected locally and burnt in heating centers. Hay, harvested late in the summer when yield is at maximum but nutritional value has become low due to lignification, can also be used as fuel. With the present fuel prices this would not pay. Plant oils (as well as fish oil) can replace diesel oil and other heavier fuels. Plant products rich in sugar or starch can be used to produce alcohol for use as fuel. It is forsee- able that lignified plant material can be used for the production of light fuels as well. Finally, hydrogen can be used as an energy source to replace fossil fuels. Its production requires other energy sources such as hydro- electric power, which is plentiful in Iceland, and a carbon source. In Iceland peat, however, has the disadvantage of being rich in ash, rarely less than 18%, due to airborne volcanic products. In Iceland there are extensive areas that could be turned into productive cultivated land. With increasing fuel prices and new technological developments there is a pot- ential in Iceland for replacing the use of fossil solar energy with currently bound solar energy. 155

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