TY - CHAP
T1 - Analysis of Recurring Sinking Events of Armored Tracked Vehicles in the Israeli Agricultural Periphery of the Gaza Strip
AU - Roskin, Joel
N1 - Publisher Copyright:
© 2016, Springer Science+Business Media New York.
PY - 2016/1/1
Y1 - 2016/1/1
N2 - The second (Al-Aqsa) intifada that erupted across Israel in 2000 eventually led the Israeli Defense Forces to deploy armored tracked vehicles (ATVs) (tanks, armored personal carriers, and D-9 bulldozers) within Israel’s agricultural periphery of the Gaza Strip to counter daily attempts of guerilla and terrorist squads to infiltrate Israel. During operations in the winter rainy season, it was reported that ATVs often sank in muddy terrain. This study investigated what caused ATVs to sink and stall in order to develop and suggest preventive measures. The principal environmental data collected included land-use characteristics, soil association and type and daily rainfall. Reconnaissance surveys and field soil cone penetrometer tests were conducted at sites having different characteristics. Interviews with commanders were conducted to obtain details on the ATV sink events. The soils, especially in agricultural fields, were generally found to be favorable for ATV traffic, even shortly after rainstorms of 10–30 mm. However, following several rainfall events in excess of 10 mm, ATVs and tanks regularly sank in local topographic depressions in short segments of dirt roads where runoff and suspended sediment collected. ATV traffic cut ruts in the mud and compacted soils. These changes to topography and soil characteristics altered drainage patterns by directing significant surface flow and suspended sediment into the depressions and effectively creating “tank-sinks” where trafficability ranged from “untrafficable” to “trafficable with constraints.” This study shows that intense, routine, defensive military activity operated without adequate terrain and/or environmental analysis and monitoring can produce repetitive, self-inflicted, environmental and combat problems.
AB - The second (Al-Aqsa) intifada that erupted across Israel in 2000 eventually led the Israeli Defense Forces to deploy armored tracked vehicles (ATVs) (tanks, armored personal carriers, and D-9 bulldozers) within Israel’s agricultural periphery of the Gaza Strip to counter daily attempts of guerilla and terrorist squads to infiltrate Israel. During operations in the winter rainy season, it was reported that ATVs often sank in muddy terrain. This study investigated what caused ATVs to sink and stall in order to develop and suggest preventive measures. The principal environmental data collected included land-use characteristics, soil association and type and daily rainfall. Reconnaissance surveys and field soil cone penetrometer tests were conducted at sites having different characteristics. Interviews with commanders were conducted to obtain details on the ATV sink events. The soils, especially in agricultural fields, were generally found to be favorable for ATV traffic, even shortly after rainstorms of 10–30 mm. However, following several rainfall events in excess of 10 mm, ATVs and tanks regularly sank in local topographic depressions in short segments of dirt roads where runoff and suspended sediment collected. ATV traffic cut ruts in the mud and compacted soils. These changes to topography and soil characteristics altered drainage patterns by directing significant surface flow and suspended sediment into the depressions and effectively creating “tank-sinks” where trafficability ranged from “untrafficable” to “trafficable with constraints.” This study shows that intense, routine, defensive military activity operated without adequate terrain and/or environmental analysis and monitoring can produce repetitive, self-inflicted, environmental and combat problems.
KW - Desert fringe
KW - Loess
KW - Military geology
KW - Palestinian terror
KW - Tank-sinks
KW - Trafficability
UR - http://www.scopus.com/inward/record.url?scp=85064756605&partnerID=8YFLogxK
U2 - 10.1007/978-1-4939-3429-4_21
DO - 10.1007/978-1-4939-3429-4_21
M3 - Chapter
AN - SCOPUS:85064756605
T3 - Advances in Military Geosciences
SP - 339
EP - 352
BT - Advances in Military Geosciences
PB - Springer
ER -