Rare 3,000-Year-Old Gold Bead Found On Temple Mount By Young Boy

Rare 3,000-Year-Old Gold Bead Found On Temple Mount By Young Boy

Spread the love

Rare 3,000-Year-Old Gold Bead Found On Temple Mount By Young Boy

During the wet sifting of the soil from the Temple Mount, a nine-year-old found the first-ever First Temple-era gold granule bead. The perfectly preserved minute cylinder, created by four layers of tiny gold balls, was uncovered by Jerusalemite Binyamin Milt.

The bead was in such excellent condition that it was initially dismissed as a modern “invader” into the jumbled earth and artefact bucket sifted by the Milt family.

Archaeology news: This 3,000-year-old golden bead was found in Israel

The family was sifting through dirt for the Temple Mount Sifting Project, which saved lots of soil that was dumped in the Kidron Valley between 1996 and 1999 by the Northern Branch of the Islamic Movement during a large-scale construction project on the Temple Mount, a site sacred to all three monotheistic religions.

Volunteers have for the past 16 years been sorting through the jumble of debris and earth that was illegally excavated from the Temple Mount, the holiest place in Judaism and site of the third holiest shrine in Islam.

The golden trinket has been dated to the First Temple period

Nine-year-old Milt found the bead in August, but its unique nature was only recognized recently, the Temple Mount Sifting Project said on Thursday after project co-director Prof. Gabriel Barkay took a closer look. The dating of the bead has now been drastically adjusted back to the First Temple period, based on examples Barkay had excavated at Ketef Hinnom, located next to the Menachem Begin Center in Jerusalem.

In the late 1970s, Barkay recovered several almost-identical silver beads that were manufactured using the same “granulation” technique as the newly found gold bead at the site where the silver priestly blessing scrolls — considered the oldest written example from the Hebrew Bible — were uncovered, along with troves of jewellery and other artefacts. According to Barkay, granulation is a decorative technique also known from Phoenician and Etruscan jewellery.

Similar beads were also found at other Holy Land sites in contexts ranging from the 13th century BCE up to the 4th century BCE, with the overwhelming majority dating to the Iron Age (12th century BCE up to the 6th century BCE), according to the Sifting Project.

Tel Aviv University Prof. Benjamin Sass said that such granule beads are known from the Late Bronze Age and even potentially from the Middle Bronze Age. They are found in all stages of the Iron Age, in the Helenistic era, through possibly the Roman era.

Project co-director Zachi Dvira said that what makes this unique find even more curious is that it is extremely rare to find gold jewellery outside of graves or treasure troves.

Dvira acknowledges that when looking at the tiny, 6 mm diameter and 4 mm high bead, “It’s difficult to explain why a bead is so interesting and important. But it’s very curious whose bead it was,” he explained to The Times of Israel. “It’s not like today when everyone can have gold jewellery, back then it was very rare, and not for the common people.”

Gold jewellery was usually recycled from generation to generation, said Dvira, such that the discovery of even a small gold bead is rare in archaeological contexts.

Though the bead is itsy bitsy, he described it as “heavy” due to the purity of the metal and the highly specialized granulation methodology used to form it. This handmade bead is fashioned from four layers, each made of tiny gold balls that adhere to each other, but more simple examples were made of a single circular layer.

According to Dvira, the process of granule formation used by artisans of the time was complex, involving several stages and a number of components. It requires the ability to melt the metal at high temperatures, and a high level of skill from the artisan. He told The Times of Israel it is still unclear whether this level of skill was found in the Land of Israel during the First Temple period, but that research is ongoing.

Archaeologist at the Temple Mount Sifting Project

To create the bead, Dvira said, “The granules are shaped from tiny metal pieces which are melted on a bed of charcoal or charcoal powder, which adsorbs air, preventing oxidation. Once the metal melts, [the] surface tension of the liquid creates ball-shaped drops. An alternative method involves dripping the liquid metal from a height into a bowl and constantly stirring the drops.”

The technique of wet sifting used by the project may be the key to the small bead’s discovery.

“Because we are sifting, we find relatively a lot of jewellery,” said Dvira, but not a lot of gold, especially not from such an early period. In the past 15 years, through the help of some 200,000 paying volunteers, the project has recovered over 500,000 artifacts, including 5,000 coins, inscriptions, mountains of pottery, Egyptian-era cultic items, jewellery, and remnants of warfare.

Dvira emphasized that the project is continuing its work at its new home at the Masu’ot Lookout in spite of the coronavirus crisis, under the government social distancing guidelines (“Tav Sagol”) and through the help of American Friends of Beit Orot and the Israel Archaeology Foundation. The project works under the scientific auspices of Bar-Ilan University and a revolving staff of a dozen archaeologists supervise the volunteers working from the 20 tables set up for the wet sifting.

Dvira is hopeful that the bead was part of a bracelet or necklace that may have left behind other beads.

“If there’s a bead from gold, the person didn’t have just one bead, he or she had a whole piece of jewellery from gold,” Dvira said.

  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
  •  
P. Natasha Covers Classical Archaeology news and has been with Histecho since 2017. She has a Master's degree in MA Archaeology from New York University's Science, Health and Environmental Reporting program. A California native, she also holds a Bachelor of science in molecular biology and a Master of Science in biology from the University of California, San Diego.

Leave a Reply

Your email address will not be published. Required fields are marked *