This thesis describes and discusses the different archaeological channels that broadcast archaeological content on YouTube. Archaeological channels on the platform provide opportunities for...Show moreThis thesis describes and discusses the different archaeological channels that broadcast archaeological content on YouTube. Archaeological channels on the platform provide opportunities for practicing archaeological science communication and for interaction between archaeologists and the general public. For instance, the scientific YouTube channels Ant Lab and Archaeoduck are great examples of science communication on YouTube. The channel owners, entomologist Smith and archaeologists Duckworth demonstrate that scientific YouTube channels can make science more interesting for the general public and create a closer (and more personal) connection between the viewer and the scientist. Regardless, archaeological channels can also disseminate inaccurate information or incorrectly represent the archaeological discipline. It is therefore important for the archaeological discipline to understand the archaeological content that is currently available on YouTube. On the basis of former research within the field of archaeology and science communication, a data set of 80 different archaeological channels was produced and analysed in this thesis. The content analysis shows an extremely diverse set of archaeological channels that vary in subscriber size, content type, purpose, level of interaction, target audience, content producer, and reliability. Most archaeological channels from the data set provide accurate scientific information and are targeted towards enthusiasts of archaeology. However, apart from a few significant outliers, these scientific archaeological channels remain relatively small in subscriber count in comparison to the other non-scientific archaeological channels. Archaeological channels on YouTube mostly inform or educate their audiences. Yet, a combination of entertaining aspects and (scientific) information is an effective format for reaching larger audiences. Moreover, the content of archaeological channels is produced by individuals, archaeological organisations/institutions, and larger television/documentary networks. Also the level of interaction between channels and viewers varies significantly per channel and suggest that the three main models of science communication (deficit model, dialogue model, and participation model) are each represented on YouTube independently.Show less
The Chalcolithic on Cyprus (ca. 3900-2400 BCE) is an important period for the research of key developments taking place on the island, such as social differentiation, craft specialisation and long...Show moreThe Chalcolithic on Cyprus (ca. 3900-2400 BCE) is an important period for the research of key developments taking place on the island, such as social differentiation, craft specialisation and long-distance trade. With extensive excavations at the sites of Lemba-Lakkous, Kissonerga-Mosphilia and Kissonerga-Mylouthkia, the Chalcolithic is generally well investigated (see Peltenburg, 1985; 1998; 2003). The poorly investigated transition between the Middle (ca. 3400-2900 BCE) and the Late Chalcolithic (ca. 2800-2400 BCE), on the other hand, still leaves a research gap. The currently ongoing excavations at the site of Chlorakas-Palloures revealed remains of both the Middle and Late Chalcolithic and, therefore, have great potential to close this gap. This research involves analysing the ceramic assemblage of trench BU13 at Chlorakas-Palloures by investigating how this assemblage changes from the Middle to Late Chalcolithic. This leads to the following research question: How does the pottery assemblage of Chlorakas-Palloures change over time from the Middle to Late Chalcolithic and how does this improve our understanding of this transition? The analysis is conducted on the basis of four categories: ware, shape, fabric and surface and the results will be displayed using seriation diagrams. For this, a diagnostic selection was made consisting of 116 sherds, which was studied during the summer of 2021. This selection is placed alongside the stratigraphy of trench BU13 to create a chronological overview of the ceramic material. In this thesis, I show that the use of seriation to create a chronological overview of how pottery changes over time is a success. The ceramic assemblage of case study BU13 changes as expected. Moving from the Middle to the Late Chalcolithic, earlier wares get replaced by later ones and pottery becomes harder and more refined in texture. However, this research also importantly reveals an anomaly in the trench. Material belonging to one of the earliest units of BU13 actually matches the characteristics of that of Late Chalcolithic pottery, while Middle Chalcolithic pottery would be expected. It indicates that the trench needs to be investigated further and current interpretations perhaps need to be re-evaluated. This not only merits the ongoing excavations at Chlorakas-Palloures but the method can also be applied to other trenches and sites on the island to improve the knowledge of Cypriot Prehistory.Show less
Since the 1960s, research on the chemical composition of ancient archaeological glass has been executed. It has become clear that raw ancient glass exists of three main ingredients: silica, lime,...Show moreSince the 1960s, research on the chemical composition of ancient archaeological glass has been executed. It has become clear that raw ancient glass exists of three main ingredients: silica, lime, and a flux. Next to these ingredients, iron is always found in the mix which gives glass naturally a green or blue colour. Around the fourth century AD, a new type of glass was introduced. This glass type was probably made in Egypt and is distinguishable from the other compositional types of glass by its yellow to green colour. Research indicates that the glass has high levels of iron (Fe), manganese (Mn), and titanium (Ti) in its composition. This is why, in 1994, the term ‘HIMT’ glass is introduced by prof. I. Freestone. This research focuses on the dispersion of HIMT glass during the fourth to seventh centuries AD on the Italian peninsula to fill in gaps in the knowledge of the general dispersion of HIMT glass throughout the Mediterranean area. HIMT glass was not the only type of glass on the market. In this research, the focus lies on HIMT glass, but to provide more context about the general glass market, also other types of glass like Egypt I and II and Levantine glass are being discussed. It is generally accepted that there are two primary glass production areas for all the ancient glass: the Levant and Egypt. The glass was formed here into large chunks which were shipped throughout the Mediterranean area to secondary production areas. There the glass was formed into vessels or other useable objects. To understand where the glass originates, chemical research is performed. Hereby, not only the chemical elements, which could be added intentionally or unintentionally, are taken into account, also isotopes, like neodymium (Nd) and strontium (Sr) which respectively indicate the age of the sediments and the source of lime, are being researched. This results in the distinction of several glass compositional groups. This research aims to answer the following question: ‘How is HIMT glass dispersed in Italy during the fourth to seventh centuries AD?’. After providing information on the chemical composition of glass and the existing glass compositional groups, an overview is given of 17 sites on the Italian peninsula where HIMT glass is present in the glass assemblage. These sites are researched using archaeological publications. A distinction is made between production sites, where the glass was formed into objects and where production waste was found, and consumption sites, where the objects were solely 68 used. Looking at the context of the sites and the composition of the glass assemblages found there, an overview of the presence of HIMT glass on the Italian peninsula could be provided. To understand the specific dispersion of the glass, three main subjects, trade in the Mediterranean area, trade in Italy, and recycling practices are researched. The research concludes that the glass was shipped from Egypt into Italy via multiple ports and trade routes after which the glass was spread throughout Italy. HIMT glass was mostly used for common ware, because of its relatively low quality, and therefore also useful for recycling. Since this research is based on the existing publications of sites containing HIMT glass, future research could include looking at yet unpublished sites, the data from already published assemblages that have not been used for this thesis, and the possibility of regional differences in shapes of HIMT glass.Show less