Members of Lebanon’s Shia Hezbollah movement stand at attention in the southern town of Bisariyeh, last August. (AFP)

May 17, 2019

A US federal court in New York on Thursday convicted a man of charges that he bought weapons and plotted attacks on behalf of the Lebanese Shiite group Hezbollah.

Ali Kourani, a 34-year-old American of Lebanese descent, was convicted of eight allegations including conspiracy to use weapons in a violent crime, which is punishable by life in prison.

“Kourani’s chilling mission was to help procure weapons and gather intelligence about potential targets in the US for future Hizballah terrorist attacks,” US attorney Geoffrey Berman said in a statement, using an alternate spelling for the group.

The targets Kourani surveyed include the JFK International Airport and a federal building in Manhattan.

“Today, Kourani has fittingly been convicted for his crimes in a courthouse that stands in the shadow of one of his potential targets,” Berman said.

Born in Lebanon but naturalized by the US in 2009, Kourani attended several Hezbollah training camps in his country of birth and took orders from agents of the Iran-backed organization after his 2003 arrival in the US.

He is now set to be sentenced on September 27.

Another man who was taken into custody in Michigan on the same day Kourani was arrested in 2017, Samer El Debek, is still awaiting trial. He is also accused of belonging to Hezbollah.

Washington considers Hezbollah, which was created by Iran in the early 1980s, a terrorist organization.

The group has been blamed for attacks in France, Lebanon and Bulgaria, and is one of the main allies of Syria’s government against the country’s rebels.

AFP

About Track Persia

Track PersiaTrack Persia is a Platform run by dedicated analysts who spend much of their time researching the Middle East, in due process we fall upon many indications of growing expansionary ambitions on the part of Iran in the MENA region and the wider Islamic world. These ambitions commonly increase tensions and undermine stability.