The Chogha Zanbil world heritage site in Khuzestan is one of the most important Elamite sites, constructed using materials such as mud bricks and baked bricks. Today, the use of petrographic methods holds a special place in archaeometric studies of historical materials like bricks and stones. This cost-effective method allows for the extraction of valuable technical information from historical materials. The main objective of this article is to identify the mineralogical characteristics of historical brick samples from Chogha Zanbil through the microscopic examination of their thin sections. The details examined in the bricks include the types of minerals that make up the bricks, texture (including grain size and shape), porosity, types of impurities, and their distribution, all presented in detail along with relevant images. The results of the studies indicate that the apparent color of the bricks from Chogha Zanbil ranges widely from yellow, brown, and red to green. Microscopic examinations not only introduce some physical characteristics of the bricks from Chogha Zanbil but also identify the main minerals present in their structure, which include iron oxide grains, calcite, quartz, chert, gypsum, fine mica grains, and feldspar. Additionally, the conducted studies provide a clear picture of the weathering processes affecting the bricks, particularly under the influence of soluble salts.

On the slopes of Mount Rahmat, located in the southern section of the Throne of Persepolis, between it and the unfinished tomb attributed to Darius III, lies a complex of structures architecturally similar to those situated on the throne itself, sharing the same axis with a deviation of 20 to 25 degrees westward. This complex, known as the Barzan-e Jonoobi, comprises eight separate structures interconnected by designed pathways and corridors and generally features columned halls and porticos. The measures taken to address various climatic challenges in this area, such as managing the slope of the land,
controlling floods from the mountains, establishing order in the form and structures, access routes, and passageways, as well as architectural and urban design elements, reflect the application of urban planning and design knowledge in its development. Unfortunately, after initial excavation and a few preliminary conservation efforts, the structures in the Barzan-e Jonoobi site have been left unattended. The predominant material used in this area is Mudbrick, and the lack of ongoing maintenance has led to the deterioration and decay of these mudbrick structures. The inherently unstable nature of these mud brick structures highlights the importance and necessity of continuous preservation and maintenance of this valuable site. Therefore, in this study, after examining the factors causing damage, a conservation plan was proposed within the framework of a comprehensive protection plan. This plan aims to reduce the rate of erosion and address the damages caused by the identified harmful factors. The research methodology employed in this article is applied and field-based in terms of its purpose and approach, and the data were analyzed qualitatively based on logical reasoning. Data collection tools included library research (note-taking, maps, sketches) and field methods (observations, interviews, photography).