The solidification/stabilization (S/S) is one of the effective methods that are used for the heavy metals treatment. It was known that one of the main issues of this method is that the heavy metal is stayed inside the matrices, not destroyed nor adsorbed, which may cause serious problems for the environment once the matrices would be crashed. Agricultural wastes have shown a great capacity to the heavy metal adsorption from solid and liquid wastes. This paper reviews the incorporation of the agricultural wastes as heavy metals' adsorbents inside the matrices of the S/S method. In addition, changes in particle sizes, pre-treatment, temperature and other factors have also been discussed towards the heavy metal adsorption. Nevertheless, research regarding the incorporation of the agricultural wastes into the S/S method is very minimal, and almost all the previous researches were only focusing comprehensively on the leaching characteristics of the method. Introduction.Nowadays, Industrial production leaves enormous quantities of mineral wastes accompanied with toxic heavy metals like Cd, Hg, As and Pb. These heavy metals are generally considered the most toxic to humans and animals, without any beneficial effects to them. Thus, they may cause acute diseases for the human beings such as dullness, restlessness, irritability, anemia, neurological effects and others (1). Several methods have been conducted towards this matter to treat the heavy metals, among which the solidification/stabilization (S/S) is known as one of the effective methods through its low cost implementation and minimum energy consumption. Nevertheless, one of the main issues of this method is that the heavy metal is stayed inside the matrices, not destroyed nor adsorbed, which may cause serious problems for the environment once the matrices would be crashed. To address this problem, the incorporation of some agricultural wastes like rice husk, pineapple leaves, pine leaves, durian shell, coir pith, sugarcane bagasse was needed as heavy metals adsorbents. Different parameters like temperature, particle sizes, contact time, pH and others have shown different efficiencies for the heavy metal adsorption.In the other hand, some mechanical characteristics like the density and the compressive strength have shown different efficiencies towards the S/S method. Heavy metals adsorption by agricultural wastes.Different heavy metals could be discharged to the environment through various sources such as textile, plastics, mining, electroplating, metallurgical processing, batteries, tanneries, fertilizers, paper industries, pesticides, and refining ores (2). Some of these heavy metals are very dangerous for the health and the environment. They may include arsenic (As), cadmium (Cd), chromium (Cr), mercury (Hg), lead (Pb), thallium (Tl) and others (8). In order to avoid their toxicity, tremendous researches have been developed for the removal of heavy metals using low cost methods, among that the agricultural wastes incorporation has been highlighted in this part. The landfilling of agricultural wastes may pollute the groundwater by infiltration and the environment through the greenhouse gas (GHG) emission in the atmosphere. As an alternative solution, some of these agricultural wastes like rice husk (4), pine leaves (5), durian shell (6), coir pith (7), oil palm shell (8) and watermelon shell (3) have shown an effective adsorption capability