1. Mine Action and the Environment in Karabakh
- Author:
- Emil Hasanov
- Publication Date:
- 04-2022
- Content Type:
- Journal Article
- Journal:
- Baku Dialogues
- Institution:
- ADA University
- Abstract:
- The now‑liberated areas of Azerbaijan are contaminated by mines and explosive remnants of war (ERW), the clearance thereof being one of Baku’s highest post‑conflict priorities. Before proceeding any further, we must provide proper definitions of these terms, since they are technical in nature and thus may not be familiar to the general reader. According to the Convention on the Prohibition of the Use, Stockpiling, Production and Transfer of Anti‑Personnel Mines and on Their Destruction that was adopted in Oslo in 1997 and entered into force in 1999 (it is colloquially called the AntiPersonnel Mine Ban Convention, or APMBC), an anti‑personnel mine “means a mine designed to be exploded by the presence, proximity or contact of a person and that will incapacitate, injure or kill one or more persons.” An antivehicle or antitank mine is effectually the same thing, except that it is designed to explode when triggered by a vehicle. Together, they fall under the catchall term mine, which the same document defines as a “munition designed to be placed under, on, or near the ground or other surface area and to be exploded by the presence, proximity, or contact of a person or a vehicle.” Furthermore, explosive remnants of war (ERW) are defined as explosive munitions left behind after a conflict has ended. They include unexploded artillery shells, grenades, mortars, rockets, air‑dropped bombs, and cluster munitions. If such weapons fail to detonate as intended for whatever reason, they are called unexploded ordnance (UXO); if, on the other hand, they have not been used during an armed conflict and have been left behind by the party that brought them to the battlefield, they are called abandoned explosive ordnance (AXO). Lastly, cluster bombs or cluster munitions, which are defined as weapons containing from several to hundreds of explosive submunitions. They are dropped either from the air or fired from the ground and are designed to break open in mid‑air, releasing submunitions and saturating an area that can be as wide as several football pitches. Based on past practice, the failure rate of cluster munitions to explode as intended stands at between 10 and 30 percent.
- Topic:
- Climate Change, Economics, Environment, Mining, and Recovery
- Political Geography:
- Central Asia, Asia, and Azerbaijan