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53 KiB
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989 lines
53 KiB
Markdown
---
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title: "From Homescape to Flora Landscape: Preliminary Observation on Plant Remains from the Christian Mud-Buildings in the Third Cataract Region"
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authors: ["hamadhamdeen.md"]
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abstract: There is a problem with this abstract that I cannot figure out.
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keywords: ["Archaeobotany", "Plant remains", "Mudbrick", "Third Cataract", "Sudan"]
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---
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# Introduction
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Mudbrick materials provide a source of environmental data to aid in
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understanding the diversity of local sediments and flora. Most studies
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begin with examining the origins of brick materials, which also can be
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studied as chronological markers, technology as social practice, as
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indicators of social class or cultural identity, and as a source of
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environmental information.[^1] Given the active role of architecture as
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material culture mudbricks are a good source of botanical evidence since
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they often include desiccated chaff, straw, fruits, and seeds, chaff
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impressions, phytoliths, diatoms, and pollen.[^2]
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Archaeologically, earth construction techniques have been known for
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over 9000 years. Mudbrick (adobe) houses dating from 8000 to 6000 BCE
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have been discovered in Russian Turkestan.[^3] Rammed earth
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foundations dating from ca. 5000 BCE have been discovered in Assyria.
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Earth was used as the building material in all ancient cultures, not
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only for homes but for religious buildings as well.[^4] In Sudan, the
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study of earthen construction materials is very rare, mudbricks were
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considered common building materials that were used in Sudan from 2500
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BCE, during
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the Kerma period, and are still widely used as building materials in
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many regions of Sudan. The materials used to make these bricks include
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Nile mud, sand, chopped straw, and animal dung. Makers mixed these
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materials in varying quantities to produce bricks with different
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characteristics.
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Most importantly, these added materials vastly improve the tensile
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strength of bricks. Straw, and sometimes chaff, has always been the
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preferred type of temper. Alternatives may include chopped grasses or
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weeds, tree bark, and potsherds.[^5] Hillman appropriately
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distinguishes between various classes of vegetal temper according to
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their derivation from the process of winnowing and coarse-sieving
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cereals, highlighting their commonly assigned different uses.[^6] The
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first type, "fragmented light straw," is probably the type of vegetal
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temper most commonly used in mudbricks. The second type,
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"medium-coarse winnowed straw," features more commonly in mud plaster
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or is used as fuel; and the third is "chaff," which results from a
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later step during cereal processing, and may be used for bricks or
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wall plaster.[^7]
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From a general view of home architecture in ancient Sudan, two types
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of homescape can be distinguished: external and internal, in which
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plants are essential elements in both. Plant remains can help us to
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understand the architectural style of houses of the external
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homescape, such as wood, which represents an essential part of the
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architectural construction elements in mud buildings, as it has been
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used as roofs and pillars to support the roofs of buildings since
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early periods in Sudan. Also, hardwood trees represent an essential
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architectural element in the design and decoration of doors and
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windows. Also, in this type of home, *Rakoba* or *Arishah* is a
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crucial element of the house and is used for recreation and protection
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from the sun and heat during the hot summer seasons. Many trunks,
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stems and branches of trees are used in its construction of *Rakoba*,
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in addition to palm and doum fronds. The trunks and stems of large
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trees also play an essential role in the building of animal pens.
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As for the elements of the interior homescape, wood, palm and doum
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fronds are used as a basic element in the manufacture of home
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furniture, such as beds, wooden chairs, and *brooches* that are used
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as rugs for sitting, in addition to the use of palm and doum palm
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leaves in the manufacture of ropes, shoes, also were used as hangers
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called locally "*mashlaib*" which are used to place food utensils in
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high areas of the ground and *Tabag* which used for the covering food.
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In the internal homescape of Sudanese houses wood is also used to
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manufacture what is called "Sahara" which is used to store clothes,
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decorative items, and other items inside homes. In addition, human
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clothing is made from materials that come directly or indirectly from
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plant fibers, and there is much evidence of textiles made from cotton
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and linen reported from archaeological sites in Sudan. In the process
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of preparing foods, there are many household tools in which wood and
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plants are the basic elements in their manufacture, such as what is
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called "*fondoak*" and "*maddak*" which are used to grinding grains
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and other food items. Other tools that were used in the homes such as
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spoons and handles for knives were made from the plants.
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There is no doubt that plants are an essential element in the
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manufacture of equipment and tools in agricultural societies from
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ancient Sudan. The archaeological record of many sites in Sudan
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provides much evidence of composite agricultural tools, i.e. wood and
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plants formed part of them, such as the *shadoof* and the *saqiya*,
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which wood and plants form the basic elements in the manufacture of
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all parts, as well as other agricultural tools, such as shovels,
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sickles, rakes, garden hoes, shears, and mattock.
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In terms of daily lifestyle, the remains of grains and cereals
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provided evidence of the types of plants that were used as a part of
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human foods and drinks. There are two types of plant foods and drinks
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in Sudan; fermented and unfermented foods, which include bread,
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porridge, and *Kisra*, and drinks such as local wine, *Hulu-mur*,
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*Abreh*, *Sharbat* and others.
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# Area of study
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The El Mahas region lies along the Nile, in northern Sudan (Fig.1)
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beginning at the north end of the Dongola Reach and extending from the
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area of the villages of Hannik (west bank) and Tombos (east bank), at
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the top of the Third Cataract, downriver as far as the area of Jebel
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Dosha (west bank) and Wawa (east bank), in the north. Its northern
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boundary is most visibly marked by the cliff-face known as Jebel Dosha
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which overlooks the west bank of the river some five kilometers
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downstream of Soleb, the end of a long ridge that runs approximately
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three kilometers into the desert to the west-north- west, forming a
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prominent natural feature, the region extends over a distance of
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approximately 141 kilometers (ca. 88 miles) from Hannik to Wawa.
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Within this area, the landscape is highly varied, including some very
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fertile localities with abundant alluvial soils but also many
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extremely barren and inhospitable areas (Osman and Edwards 2012: 6-7).
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The Mahas Archaeological Project, directed by Prof. Ali Osman,
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identified four Christian mudbrick sites located in the different
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three main areas (north, middle, and south) of the El Mahas region in
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April 2019. I chose these four sites to serve as case studies for the
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study of mudbrick inclusions in Christian Sudan.
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These four sites can be described in brief as follows:
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**Site (1) TMB016** (19°42.935/30°22.72)**:** This site was located
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near the north end of Dabaki island on a prominent rock outcrop
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overlooking the river. Here, the denuded remains of a massively built
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mudbrick enclosure, measuring approximately 75 x 35 meters, aligned
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approximately east-west. The only large areas of brickwork which
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survive are in the western corner towers and in the southeast quadrant
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where the walls measure over 3.5 meters thick and more than 4 meters
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high in some places. Perhaps they were elements of a fortified gateway
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opening to the south. Built on a very irregular surface, parts of the
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walls have substantial stone foundations, while other parts were built
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directly onto granite boulders. The builders used large bricks
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measuring approximately 39 x 20 x 11 centimeters. Within the
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enclosure, the only surviving structure is a small mudbrick church
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measuring 16.5 x 10.3 meters, with walls standing up to 2 meters high,
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constructed on a substantial mudbrick platform In the southwest corner
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the lower part of a stairway survives rising over a small vaulted
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chamber. Most of the surface sherds appear to date to the Christian
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period (Osman and Edwards 2012) (Fig.2a).
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**Site (2) MAS021** (19°53.012/30°23.575)**:** The site is a medieval
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church built amongst large boulders of a small rocky spur running west
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from Jebel Barja. This small, well-preserved mudbrick church measures
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approximately 8.5 x 9.5 meters and in places stands over 4 meters
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tall. Its east end is built against a massive boulder with rock
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drawings of a large human figure and two animals. The base of a small
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central dome survives, and traces of inscribed texts and wall
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paintings are visible on mud wall plaster. One local name for the site
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is Hambujneen Kisse (Osman and Edwards 2012) (Fig.2b).
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**Site (3) DFF008** (19°56.932/30°30.138)**:** The site is situated on
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a rocky hillock, with modern buildings on lower ground below the hill.
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It is a well-preserved medieval settlement known by local people as
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Tinutti. At least five substantial mudbrick structures can be
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identified. It is well-preserved. Several rooms still retain their
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barrel vaulting and parts of the central structure stand nearly 5
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meters high.
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The more fragmentary remains of additional structures, including
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rougher stone-built buildings, surround these upstanding remains. None
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of the visible buildings appears to have been a church. Test
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excavations by the University of Khartoum in Building A, a poorly
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preserved structure, revealed most of its plan. Excavations also
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revealed stone foundations beneath the mudbrick superstructure of
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Building A. Aerial photos from the 1930s show that additional
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substantial upstanding remains survived on the site at the time
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(Fig.2c).[^8]
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**Site (4) DFF009** (19°56.491/30°30.479)**:** This site was located
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on bare rocks on the north side of the thin band of cultivation in an
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otherwise inhospitable area of Haleeba. The main structure is a small
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tower-house ('castle-house') with thick stone foundations up to two
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meters high. Parts of its mudbrick superstructure still survive up to
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six meters high in its northwest corner. Some traces of its internal
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vaulted ceilings survive. No clearly defined entrance is visible in
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the bottom story. Most of the lower rooms were probably accessible
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only from above. Little surface pottery was found but the little that
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survived appears to be 'Late' and 'Terminal Christian' ceramic types.
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Outside this structure are traces of less substantial structures
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surviving as a few courses of rough stone walling (Fig.2d).[^9]
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**~~Figure 1. The area of study.~~**
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**~~Figure 2. The four sites discussed in the chapter: a) TMB016. b) MAS021. c) DFF008. d) DFF009 (photos by Eng. Omer).~~**
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# Materials and Methods
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The samples were collected from the mud-brick constructions from the
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four sites (TMB016, MAS021, DFF008, and DFF009). The total volume of the
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materials was approximately 4 kilograms (1 kilogram from each site). The
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organic residues of plants and animals could be easily observed in the
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samples before they floated in the water. The material was soaked in
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water for six hours to dissolve the hard mud and to allow the wet
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sieving to separate the plant\'s remains that were floated above the mud
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and sand. Two metal sieves with a mesh size of 0.5 and 1 millimetres
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were used for the wet sieving to separate the plant remains. The
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separated material was dried and examined under binoculars in the
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Department of Archaeology, Faculty of Arts, University of Al Neelain
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(Sudan), and Institute of Archaeology, University of Nicolas Copernicus,
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(Poland). To aid with identification, we used fresh seeds as a reference
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collection alongside determination literature. Some animal dung and
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insect remains were separated during the sorting processing of the plant
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macro-remains.
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# Results and Discussion
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## Results of extracted plant remains from the Homescape
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Seven plant species were encountered as seeds\\fruits were extracted and
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identified from the mudbrick samples. The assemblage of seeds and fruits
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were preserved by desiccation. Table (1) shows the Latin names of the
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determined species and their distribution in the sites. The cereal
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appeared clearly and can be identified from the seeds of the *Triticum
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aestivum* (Fig.3a)*, Hordeum vulgare* (Fig.3b) added to some parts of
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spikelets, chaffs, and glume fragments for those two cereals*. Sorghum
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bicolor* was presented from spikelet with grain inside (Fig.4c) and
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*Setaria italica* was also represented from their seeds. (Fig.3d)
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*Adansonia digitate* appeared from small fragments of the fruit pulp
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shell (Fig.3e) *Acacia nilotica* was identified from the seed remains
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(Fig.3f) the *Cyperus rotundus* which appeared in the materials from the
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complete purple nutsedge roots (Fig.3g). Some animal remains, animal
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dung (Fig. 3h) and insect remains (Fig.3i) appeared in the samples. More
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analysis for identification will be done at a later date.
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**~~Table 1. Plant species that were identified from the Samples.~~**
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**~~Figure 3. The figure presents the plant and animal remains that were identified; a. Triticum aestivum; b. Hordeum vulgare; c. Sorghum bicolor, d. Setaria italica; e. Adansonia digitata, f. Acacia nilotica; g. Cyperus rotundus; h. Animal dung; i. Insect remains (Photo: H.M. Hamdeen).~~**
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## Mudbrick as source of the plant remains
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The material from mudbricks is an important source of archaeobotanical
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and palaeoecological data of the crops, weeds, and other vegetation
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along the Nile floodplain. The mixture of the plant macro remains in
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mudbrick is heterogeneous because they came from different origins.
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These differences originate partly from the clay itself, partly from the
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plant materials added to the adobe as a temper, and partly from the
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vegetation surrounding the site of brick manufacture.[^10]
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The identified plant species were added to the adobes either as a part
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of the temper or as an unintentional admixture coming into the mud
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material during the adobe processing. The fibers serve a number of key
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functions. First, they hinder cracking upon drying by distributing
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tension throughout the bulk of the brick. Second, they accelerate
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drying by improving outward drainage of moisture to the surface of the
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brick. Third, they significantly reduce the bulk density of the brick,
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lightening its weight and reducing its thermal conductivity. Most
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importantly, they increase the tensile strength of the brick, the lack
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of which is one of the inherent disadvantages of mudbrick.[^11] The
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necessity of temper may vary depending on the quality of the sediment,
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clay, and organic material that was added to the mudbrick.
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Experts in Sudan rarely study the archaeobotanical remains from
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mudbrick. Sergeev *et al* studied the considerable potential of
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mudbricks as a source of the history, cultural practices, and
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technologies of ancient societies that developed in a specific natural
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environment.[^12] Their analysis focused on comparing two collections of
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mudbricks from ancient capital regions of Egypt (Giza) and Sudan (Abu
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Erteila). There were significantly different numbers of plant varieties
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recovered between these two sites. More than 7500 plant macro remains
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were recovered at Giza and only 430 at Abu Erteila. The difference was
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pronounced in the concentration of macroremains of cultivated plants
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which are common at Giza and are very rare in Abu Erteila. In addition,
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carbonized archaeobotanical materials common in mudbricks from Egypt are
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practically absent in all the samples from Sudan. Among the possible
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reasons for the imbalance could be the humble vegetation and a lower
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intensity of economic activity around Abu Erteila during the Meroitic
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Period. Alternatively, the Meroitic people may have preferred to use
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valuable organic waste from the processing of crops in other production
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spheres such as, for example, animal husbandry.
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The evidence from Christian mudbrick from the Third Cataract shows
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that there is a high density of plant remains. This could be that
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Christian people in this area preferred to use valuable organic waste
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from the processing of crops in mudbrick production. This demonstrates
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that there was a different mudbrick technique used at the Meroitic
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sites in Central Sudan.
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***The floral landscape in the third cataract during Christian period***
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### Cultivated flora
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The archaeobotanical remains from the four Christian mudbrick
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buildings in El Mahas region show four cultivated plants *Triticum
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aestivum*, *Hordeum vulgare, Sorghum bicolor,* and *Setaria italica*.
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These cereals are packed with starch that contains an appreciable
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amount of protein. Food production in the Mediterranean basin, Europe,
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the non-tropical parts of Asia, and (to some extent) the highlands of
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Ethiopia, was based primarily on wheat and barley.[^13] The remains of
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*Triticum aestivum* and *Hordeum vulgare* present as grains and
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spikelets in the mudbrick samples from the four Christian sites. These
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two plants have been reported at many archaeological sites in Sudan.
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The analyses of phytoliths and starch grains from human dental
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calculus of the Early and Middle Neolithic Sudanese cemeteries of
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Ghaba in the Shandi reach and at R12 in the Dongola reach in Northern
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Sudan, provide evidence of wheat and barley. This evidence suggests
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that these domesticated taxa were introduced into Africa in the early
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Neolithic. The pillow-like grave deposits provide information about
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the role of plants in the burial ceremony, at site 8-B-52-A in Sai
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Island, the site that dates to the pre-Kerma period.[^14] Also, the
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pharaonic town at Amara West dates to 1250-1070 BCE.[^15] Remains of
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*Triticum diococcum* have been reported at the Napatan site HP736 in
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the Wadi Umm Rahau at the Fourth Nile Cataract, in the Egyptian and
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Napatan site in Kawa, and from the same period outside the Nile
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Valley, at Gala Abu Ahmad, located about 110 kilometers west of the
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river in Wadi Howar, Meroe.[^16] These remains have also been found at
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Christian sites such as Soba (Cartwright 1998; Van der Veen 1991),
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Nauri (Fuller and Edwards 2001), El Hamra (Madani et al 2015), El
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Mireibiet (Hamdeen et al 2018), and Banganarti (Hamdeen and Pokorny
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2022). This domesticated cereal constitutes the main source of
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calories for mankind. Cereals thrive in open ground and complete their
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life cycle in less than a year. The nutritional value of their grains
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generally is high, and the seeds can be stored for long periods. These two cereals remain common crops
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in northern Sudan today. They provide important proteins for both
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people and animals.
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Other cereal remains can be found in this material. For example,
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*Sorghum bicolor* is present in seed form from sites TMB016 and
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Dff009. This plant is considered one of the world's five most
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important cereals, but its origins are less well understood than the
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others (namely rice, wheat, barley, maize).[^17] Sorghum is especially
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important in the semiarid tropics of Africa and South Asia, with
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significant production also in China, Southeast Asia, and the
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Americas.[^18] There is clear evidence for the use of wild sorghum in
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the eastern Sahara as early 6000 BCE and by Neolithic populations in
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central Sudan by the fourth millennium BCE.[^19] Evidence for the
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transition from wild sorghum to domesticated sorghum can be sequenced
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in the stratigraphy of Qasr Ibrim. It suggests that domestication may
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have been as late as the first centuries CE.[^20] Research from
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eastern Sudan indicates sorghum was domesticated in the Fourth
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Millennium BC, based on spikelet morphology from the ceramic
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impression of the Butana Group (site KG 23) near Khashim el
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Girba.[^21]
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The last species of cereal type, *Setaria italica, was* reported as
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seeds from two sites, MAS021 and DFF009. One of the pieces of evidence
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in the area for this *Setaria* sp. was recovered from settlement
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contexts at site Abu Darbien in central Sudan date back to 7860 cal.
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BP.[^22] In the eastern Sudan from sites K1 I 5, S14d, 3-S5 dated to
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Gash group 1500--1400 BCE. *Setaria* sp. was identified on the
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exterior surface of pottery and not far from that site. *Setaria* sp.
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also was recorded from site SEG 42 R 5 and dating to Hagiz Group 500
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BCE--500 CE.[^23] Some remains of *Setaria* sp. have been identified
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also in the organic residues in pots from early Meroitic cemetery at
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Amir Abdallah.[^24] *Setaria italica* remains appeared together with a
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related wild weedy grass identified as *Setaria cf. sphaceleata* at
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the Christian site at Nauri on the opposite bank of the site
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DF009.[^25] This evidence suggests that *Setaria* sp. is common in
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this area of Sudan and that there may be some connection between these
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two sites during Christian period.
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The evidence of domesticated plants from our sites in the Third
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Cataract provided a strong indication of the agricultural production
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of these crops during the early, classic, and late Christian period.
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The evidence of Nubia therefore suggests that the original agriculture
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in Nubia focused on winter cultivation based on receding Nile floods.
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The summer season of low flood would not have been conducive to
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cultivation without irrigation, except over very limited land areas or
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of very tolerant crops.[^26] But all this was ch[a]{.underline}nged
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when the *saqiya* was introduced to Sudan during the Meriotic
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period.[^27] More land was made available and more crops could be
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produced. This development has important implications for the
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potential density of the population, as more land will require more
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labor, and two seasons 'winter and summer' of cultivation will tie
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laborers to the land for a greater proportion of the year, thus
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potentially removing some of their ability to be part- time
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specialists during the non-agricultural seasons as potters.[^28] This
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was confirmed by the high density of pottery sherds, kilns, and
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several houses noted and documented on the Christian sites in the
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Third Cataract and Dongola region.
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The evidence of these cereals from the mud-building sites in the Third
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Cataract indicates that these plants played a major role in the
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economy and foods for humans and animals during the Christian 6th
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to the 16th century CE in the Third Cataract region and northern
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Sudan. This suggestion can be confirmed by historical texts dating to
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this same period and other plants remains from Christian sites in
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north and Central Sudan.[^29]
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### Riverine wild flora
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The material under discussion also contained wild plant species, a few
|
|
of which have medical and ethnographic value. These plants were
|
|
probably collected or available for this purpose by people living in
|
|
the Christian settlements in the Third Cataract region. One of these
|
|
riverine wild floras is *Cyperus rotundus,* a type of grass that
|
|
appear from the complete purple nutsedge roots from site TMB016,
|
|
DFF008 and DFF009. This species has been in association with humans
|
|
from remote pre-history to the present. It was consumed as a food for
|
|
thousands of years in prehistoric times, but is viewed as a
|
|
troublesome weed in modern times. Abundant remains of *C. rotundus*
|
|
tuber, thought to have been collected as food, were found at the
|
|
18,000-year-old site of Wadi Kubbaniya, near Aswan, Egypt, and at
|
|
later sites at Al Khiday, 25 kilometers south of Omdurman.[^30] The
|
|
complex of burial sites has yielded dental calculus samples from
|
|
pre-Mesolithic, Neolithic, Late Meroitic, and Mesolithic ages,
|
|
covering more than 7000 years, Cyperaceae tuber was recoded from the
|
|
Kushite site at Kawa dating back to Napatan period 750-400 BCE.[^31]
|
|
|
|
Ecologically, *Cyperus rotundus* is commonly found in cultivated
|
|
areas, disturbed areas, roadsides, lawns, parks, and wastelands, and
|
|
is favored by moist, fertile soil conditions, and a warm climate.[^32]
|
|
Moisture and temperature are reported to be the most important factors
|
|
in restricting its possible distribution in agroecosystems.[^33]
|
|
Plants of *C. rotundus* continuously produce new tubers and successive
|
|
plants until the occurrence of frost over winter, which burns the
|
|
leaves and causes the tubers to enter into a state of dormancy.
|
|
*Cyperus rotundus* tubers are sensitive to saline conditions, low
|
|
temperatures, and shade.[^34] The extraction of chemical compounds and
|
|
microfossils from dental calculus derived from prehistoric skeletons
|
|
from the site of Al Khiday indicates that the tubers of *C. rotundus*
|
|
were used as food and may have served as a carbohydrate staple for
|
|
millennia. The evidence of this plant in the Third Cataract indicates
|
|
that the plants may have been used as food or a part of local
|
|
traditional perfume made by a woman in Sudan called (*Kunfer*).[^35]
|
|
|
|
Large deposits belong to glumes of wild grasses (family: *Poaceae*)
|
|
were presented in the samples from the four sites, but the species
|
|
remains unidentified. Generally, grasses have a high nutritional
|
|
value, and they have been collected for animal fodder or a part of the
|
|
clay and probably mixed with clay during the production of the
|
|
mudbrick.
|
|
|
|
### Wild trees
|
|
|
|
The remains of *Adansonia digitate* appear from small fragments of the
|
|
fruit pulp in the site TMB 016 and site MAS 021. The ecological
|
|
conditions of this plant lead it to mainly grow in the hot and dry
|
|
savanna areas of sub-Saharan Africa. The plant is very effective in
|
|
preventing water loss and can flourish in sandy soils. In East Africa,
|
|
the trees grow in the shrublands and coastal areas. *Adansonia
|
|
digitata* is a traditional food plant in East and sub-Saharan Africa.
|
|
It has a rich medicinal and nutritional value, this species was
|
|
indigenous to West Africa and brought to Eastern Africa by a movement
|
|
of pastoralists.[^36] In the arid and semi-arid areas of sub-Saharan
|
|
Africa, the *Adansonia digitata* provides a variety of foodstuffs to
|
|
local communities, as well as fodder, fibers for weaving and
|
|
rope-making, gum, seed oil, natural medicine, materials for dishes,
|
|
and water storage.[^37] It can also be used for shelter and as a
|
|
gathering point for humans and their livestock.[^38] All across the
|
|
African continent, the sight of *A. digitata* has inspired tales,
|
|
poetry, songs, and legends. *A. digitata* have often commanded
|
|
compassion and even devotion.[^39]
|
|
|
|
The earliest archaeobotanical record from Sudan and northeast Africa
|
|
for this species came from site K1 IX in Kassala and dates to the Late
|
|
Gash Group context. This evidence was the charred seeds of *Adansonia
|
|
digitata* L. These findings suggest that this tree had already been
|
|
transferred from west to east across the savanna by the early second
|
|
millennium BCE.[^40] The evidence from the Third Cataract is
|
|
considered the second record for this species in the Sudan and
|
|
North-East Africa dating back to the early Christian period (sixth
|
|
century CE).
|
|
|
|
The *Acacia nilotica* belongs to the family Fabaceae. It is a widely
|
|
spread tree in the central and northern parts of the Sudan, known in
|
|
Sudanese folk medicine as *kaarad*.[^41] The species of Acacia is
|
|
found all over the world distributed in dry tropical and sub-tropical
|
|
regions. In Sudanese folk medicine, the fruits (pods) of *Acacia
|
|
nilotica* are used as aqueous macerates or in a powder form for the
|
|
treatment of pneumonia, tonsillitis, dysentery, diarrhea, and
|
|
malaria.[^42] The phytochemical studies on the pods of *Acacia
|
|
nilotica* showed some bioactive principles such as tannins, saponins,
|
|
glycosides, and flavonoids.[^43] Some studies showed that the pods of
|
|
*Acacia nilotica* have potential antioxidants and are found effective
|
|
in protecting plasmid DNA and human serum albumin protein oxidation
|
|
induced by hydroxyl radicals.[^44] It can be also used as fodder for
|
|
livestock in the dry lands of Sudan.[^45] The *Acacia sp*. remains
|
|
were recorded from many archaeological sites in this region such as at
|
|
Kawa, Nauri, and Banganarti.[^46] In the samples from the area study
|
|
the evidence of *Acacia nilotica* represented as seeds. Some tree bark
|
|
probably related to *Acacia sp*. were also reported. This plant had
|
|
medical uses in Sudan, but the archaeological evidence for plants
|
|
employed for medicinal purposes in Sudan is not clear. However,
|
|
physical anthropological analysis of human bones shows many diseases
|
|
during the Christian period, and according to ethnobotanical and
|
|
laboratory studies, some of these diseases could be cured by certain
|
|
plant species.[^47] Depending on the field observation, it is likely
|
|
that this plant was used for the medical value, animal fodder, fire
|
|
fuel and using for building houses and animal stockyard in the third
|
|
cataract region.
|
|
|
|
Lastly, the archaeobotanical evidence from the Christian mudbrick
|
|
sites in the El Mahas region provided some evidence of the flora
|
|
landscape. It can be divided into three types; riverine wild flora,
|
|
cultivated flora, and wild trees. It also a new perspective for
|
|
applying the technique of extorted plants remains from mudbrick in
|
|
Sudan and how the characteristics of mudbrick offer good conditions
|
|
for preserving organic remains. Some of the plant remains are still
|
|
undetermined, including some fragments of branches, charcoal, and
|
|
wood. Further palynological, carpological, and xylological analyses
|
|
studies in the future should provide a new data relating to the
|
|
domestication and natural vegetation of the area.
|
|
|
|
# Conclusions
|
|
|
|
The plant remains that were reported from the four Christian sites in
|
|
the Third Cataract region provide to us some information about the
|
|
homescape and landscape of this area. Evidences of *Triticum
|
|
aestivum*, *Hordeum vulgare, Sorghum bicolor,* and *Setaria italica*
|
|
show that they were probably used as some of the primary sources of
|
|
foodstuff for human and animal populations during the Christian
|
|
period. Many cereals, legumes, roots and tubers, fruits, nuts, and
|
|
leaves belonging to those species provided valuable and fundamental
|
|
diets for consumption to human foods and fodder for animals.
|
|
|
|
Our plant remains provided some evidence of the external and internal
|
|
homescape of the Third Cataract during the Christian period. *Acacia*
|
|
sp. and *Adansonia* sp. could be used as building materials in both
|
|
the exterior and interior shelters and homes. Some of these materials
|
|
are wood, timber, and straw, as well as hard trunks and tree branches
|
|
probably used as roofs and walls in the houses. Furniture was commonly
|
|
composed of *Acacia* woods.
|
|
|
|
From ancient times till nowadays, people used traditional herbal
|
|
medicines to treat their ailments; particularly in our materials
|
|
*Acacia nilotica* was presented and probably used for medical
|
|
purposes. The remains of the *Adansonia digitata* from the Third
|
|
Cataract was probably used in a variety of ways during the Christian
|
|
period for water storage, medical needs, and shelter as well. Today
|
|
Sudanese women employ *Cyperus rotundus* for cosmetic and perfumery
|
|
purposes, and it may have been used during the Christian period also.
|
|
|
|
There are three flora landscape in the area of study based on our
|
|
plant remains, cultivated flora which include the four cereals:
|
|
*Triticum aestivum*, *Hordeum vulgare, Sorghum bicolor,* and *Setaria
|
|
italica*. Riverine wild flora which can noted clearly form the remains
|
|
of *Cyperus rotundus* and some wild grasses*,* and lastly *Acacia
|
|
nilotica and Adansonia digitata*, which can be considered as two
|
|
models representing wild trees in the Third Cataract region during the
|
|
Christian period.
|
|
|
|
# Acknowledgements
|
|
|
|
Special thanks go to the El-Mahas Archaeological Project team in the
|
|
2019 season, and the director Prof Ali Osman Mohamed Salih, and the
|
|
people of Mashakiela village for their hospitality and generosity. The
|
|
following persons are also thanked: Eng. Omer for taking drone photos.
|
|
Eng. Medhat Mohamed Osman. Mr Basim Ali, Mr. Ahmed Ali Osman, and Mr.
|
|
Musaab Khair for their assistance with the fieldwork.
|
|
|
|
# References
|
|
|
|
Abdalla, M.S., Babiker, I.A., Al-Abrahim, J.S., Mohammed, A.E. Elobeid,
|
|
M.M., and K.F. Elkhalifa. "Fodder Potential and Chemical Composition of *Acacia
|
|
nilotica* Fruits for Livestock in the Dry Lands of Sudan."
|
|
*International Journal of Plant, Animal and Environmental Sciences*
|
|
4/1 (2014): pp. 366--9.
|
|
|
|
Abd-El-Nabi, O.M., Reisinger, E.C., Reinthaler, F.F., Still, F., Eibel,
|
|
U., and G.J. Krejs. "Antimicrobial Activity of *Acacia Nilotica* (L.)
|
|
Willd. ex Del. Var. *Nilotica* (Mimosaceae)." *Journal of
|
|
Ethnopharmacology* 37 (1992): pp. 77--9.
|
|
|
|
Adams, W. Y. *Nubia: Corridor to Africa*. Princeton, NJ: Princeton University Press, 1977.
|
|
|
|
Alvaro, C., M. Frangipane, G. Liberotti, R. Quaresima, and R. Volpe. "The Study of the Fourth Millennium Mudbricks at Arslantepe:
|
|
Malatya (Turkey): Preliminary Results." In *Proceedings of the 37th
|
|
International Symposium on Archaeometry*, edited by Isabella Turbanti-Memmi,
|
|
651--6. Berlin: Springer-Verlag, 2011.
|
|
|
|
Andrews, F.W. *The Flowering Plants of the Anglo-Egyptian Sudan
|
|
(Volume II Sterculiacea-Dipsacaceae)*. Arbroath: T. Buncle & co. Ltd, 1952.
|
|
|
|
Arpin, T. and P. Goldberg. "Using Optical Microscopy to Evaluate
|
|
Human History." *Microscopy and Analysis* 18 (2004): pp. 13--15.
|
|
|
|
Auwal, M.S., Shuaibu, A., Ibrahim, A., and M. Mustapha.
|
|
"Antibacterial Properties of Crude Pod Extract of *Acacia nilotica*
|
|
(Fabaceae)." *Haryana Veterinarian* 54/1 (2015): pp. 29--32.
|
|
|
|
Ayyad, S., K. Krzywinski, and R. Pierce. "Mudbrick as Bearer of
|
|
Agricultural Information: An Archaeopalynologic Study." *Norwegian
|
|
Archaeological Review* 24/2 (1991): pp. 77--91.
|
|
|
|
Badura, M. "Plant Remains from the Napatan Settlement in Wadi
|
|
Umm-Rahau: An Interim Report." In *Proceedings of the
|
|
Third International Conference on the Archaeology of the Fourth Nile
|
|
Cataract, University of Cologne, 13--14 July 2006*, edited by Hans-Peter Wotzka, pp. 77--81. Africa Praehistorica 22. Köln: Heinrich-Barth-Institut, 2012.
|
|
|
|
Beldados, A. "Millets in Eastern Sudan: an Archaeobotanical Study."
|
|
*Azania: Archaeological Research in Africa* 54:4 (2019): pp. 501-515.
|
|
DOI: 10.1080/0067270X.2019.1691844.
|
|
|
|
Bekele-Tesemma A. *Useful Trees and Shrubs of Ethiopia:
|
|
Identification, Propagation and Management for 17 Agroclimatic Zones*.
|
|
Nairobi: World Agroforestry Centre, 2007.
|
|
|
|
Bendixen, L.E. Nandihalli, U.B. 1987. "Worldwide Distribution of Purple
|
|
and Yellow Nutsedge (*Cyperus rotundus* and C. *esculentus*)." *Weed Technology*
|
|
1 (1987): pp. 61--65.
|
|
|
|
Buckley, S., Usai, D., Jakob, T., Radini, A. and K. Hardy. "Dental
|
|
Calculus Reveals Unique Insights into Food Items, Cooking, and Plant
|
|
Processing in Prehistoric Central Sudan." *PLoS one* 9 (2014): pp. 1-10.
|
|
|
|
Buthelezi, V. *Baobab*. Bloomington: Xlibris, 2013.
|
|
|
|
Cartwright, C. "The Wood, Charcoal, Plant Remains and Other
|
|
Organic Material." In *Soba II: Renewed Excavations
|
|
at the Metropolis of the Kingdom of Alwa*, edited by Derek Welsby, pp. 255--68. British Institute in
|
|
Eastern Africa Monograph 15. London: British Museum Press, 1998.
|
|
|
|
Doggett, Hugh. *Sorghum*. Harlow, UK: Longman, 1970.
|
|
|
|
De Caluwe, Emy. *Market Chain Analysis of Baobab (Adansonia digitata
|
|
L.) and Tamarind (Tamarindus indica L.) Products in Mali and Benin*.
|
|
Thesis submitted in fulfillment of the requirements for the degree of
|
|
Doctor (PhD) in Applied Biological Sciences: Agronomy, University Press,
|
|
Belgium, 2011.
|
|
|
|
Ebrahim, A.M., Eltayeb, M.H., Khalid, H., Mohamed, H., Abdalla, W.,
|
|
Grill, P., and B. Michalke. "Study on Selected Trace Elements and Heavy
|
|
Metals in Some Popular Medicinal Plants from Sudan." *Journal of Natural Medicines* 66/4 (2012): pp. 671--9.
|
|
|
|
Fernandez, V.M. *La Cultura Alto-Meroitica del Norte de Nubia*.
|
|
Unpublished Ph. D Dissertation. Universidad Complutense, Madrid, 1983.
|
|
|
|
Flower, R. J. "Diatoms in Ancient Building Materials: Application
|
|
of Diatom Analysis to Egyptian Mudbricks." *Nova Hedwigia* 82 (2006): pp. 245--63.
|
|
|
|
Fuller, D. "Early Kushite Agriculture: Archaeobotanical Evidence
|
|
from Kawa." *Sudan and Nubia* 8 (2004): pp. 70--4.
|
|
|
|
Fuller, D. and D. Edwards. "Medieval Plant Economy in Middle Nubia:
|
|
Preliminary Archaeobotanical Evidence from Nauri." *Sudan and Nubia* 5 (2001):
|
|
pp. 97--103.
|
|
|
|
Fuller, D. "The Economic Basis of the Qustul Splinter State:
|
|
Cash Crops, Subsistence Shifts, and Labour Demands in the Post-Meroitic
|
|
Transition." In *The Kushite World: Proceedings of
|
|
the 11th International Conference for Meroitic Studies, Vienna 1--4
|
|
September 2008*, edited by Michael H. Zach, pp. 33--60 Vienna: Verein der Förderer der Sudanforschung, 2015.
|
|
|
|
Gebauer J. and G. Ebert. "Tropische Wildobstarten. Ein Potenzial fur
|
|
die Zukunft?" *Humboldt-Spektrum* 2/3 (2002): pp. 96--100
|
|
|
|
Geus, F. "Two Seasons in Sai Island (1996-1997)." *Kush* 18 (2003):
|
|
pp. 61--73.
|
|
|
|
Hulse, Joseph H., Evangeline M. Laing, and Odette E. Pearson.
|
|
*Sorghum and Millets: Their Composition and Nutritive Value*. London:
|
|
Academic Press, 1980.
|
|
|
|
Gunasekera, T.G. and D.N.S. Fernando. "Agricultural Importance,
|
|
Biology, Control and Utilization Cyperus rotundus." *Planter*
|
|
70 (1994): pp. 537--44.
|
|
|
|
Hamdeen, H.M. and P. Pokorny. "Plant Impressions from the Surfaces of
|
|
Christian Pottery at Banganarti." In *Banganarti
|
|
Studies II*, edited by Bogdan Żurawski, pp. 199-213. Nubia VIII. Warsaw: Institute of Mediterranean and Oriental
|
|
Cultures. Polish Academy of Sciences, 2022.
|
|
|
|
Hamdeen, H.M. "Preliminary Observation on the Plant Remains from
|
|
the Christian Mud-Building in the Third Cataract Region, Northern
|
|
Sudan." Paper presented in the Sudan Studies Research Conference, Munich
|
|
Edition. Ludwig-Maximilian University of Munich. 25 June 2022.
|
|
|
|
Hamdeen, H. M., Madani, I., and Y.F. Tahir. "Positive Casts of Wheat
|
|
and Barley on the Fire-Mud Basin from the Christian Site MRB-05-001 at
|
|
El Mirebiet Oasis in El Ga'ab Depression, Western Dongola, Sudan."
|
|
*Sudan and Nubia* 22 (2018): pp. 167--71.
|
|
|
|
Hardy, K. and L. Kubiak-Martens (eds). *Wild Harvest: Plants in
|
|
the Hominin and Pre-agrarian Worlds*. Oxford: Oxbow Books, 2016.
|
|
|
|
Henn, T., S. Jacomet, D. U. Nagy, and R. W. Pál. "Desiccated
|
|
Diaspores from Building Materials: Methodological Aspects of Processing
|
|
Mudbrick for Archaeobotanical Studies and First Results of a Study of
|
|
Earth Buildings in Southwest Hungary." *Vegetation History and
|
|
Archaeobotany* 24/3 (2015): pp. 427--40.
|
|
|
|
Hillman, G. "Traditional Husbandry and Processing of Archaic
|
|
Cereals in Recent Times: The Operations, Products and Equipment Which
|
|
Might Feature in Sumerian Texts Part 1: The Glume Wheats." *Bulletin on
|
|
Sumerian Agriculture* 1 (1984): pp. 114--52.
|
|
|
|
Homsher, R.S. "Mudbricks and the Process of Construction in the
|
|
Middle Bronze Age Southern Levant." *Near Eastern Archaeology* 75/4 (2912): pp. 1-27.
|
|
|
|
Houben, H. and H. Guillard. *Earth Construction: A Comprehensive
|
|
Guide*. London: Intermediate Technology Publications, 1994.
|
|
|
|
Iwu, M.M. *Handbook of African Medicinal Plants*. Boca Raton: CRC Press, 2014.
|
|
|
|
Kabore, D, Sawadogo-Lingani H, Diawara B, Compaore, C.S., Dicko M.H., and M.
|
|
Jakobsen. "A Review of Baobab (*Adansonia digitata*) Products:
|
|
Effect of Processing Techniques, Medicinal Properties and Uses." *African Journal of Food Science* 5 (2011): pp. 833--44.
|
|
|
|
Kahlheber, S. "Archaeobotanical Investigations at the Gala Abu
|
|
Ahmed Fortress in Lower Wadi Howar, Northern Sudan. The Fruit and Seed
|
|
Remains." *Sudan and Nubia* 17 (2013), pp. 33--41.
|
|
|
|
Kamatou, G.P., Vermaak I., and A.M. Viljoen "An Updated Review of
|
|
Adansonia Digitata: a Commercially Important African Tree". *South African Journal of Botany*
|
|
77 (2011): pp. 908--19.
|
|
|
|
Lim T.K. *Edible Medicinal and Non-Medicinal Plants: Volume 1,
|
|
Fruits*. Dordrecht: Springer, 2012.
|
|
|
|
Love, S. "Architecture as Material Culture: Building Form and
|
|
Materiality in the Pre-Pottery Neolithic of Anatolia and Levant."
|
|
*Journal of Anthropological Archaeology* 32/4 (2013): pp. 746--58.
|
|
|
|
Madani, I., Tahir, Y. F., and H.M. Hamdeen. "Plant Macroremains
|
|
Recovered from El-Hamra Christian Complex Excavation in El-Ga'ab
|
|
Depression, Sudan." *Sudan and Nubia* 19 (2015): pp. 143--8.
|
|
|
|
Mabberley, D.J. *A Portable Dictionary of Plants, their
|
|
Classification and Uses*. Cambridge: Cambridge University
|
|
Press, 2008 (3rd ed.).
|
|
|
|
Magid, A. A. "Exploitation of Plants in the Eastern Sahel (Sudan),
|
|
5,000--2,000 B.C." In *Late prehistory
|
|
of the Nile Basin and the Sahara*, edited by L. Krzyzaniak and M. Kobusiewicz, pp. 459--68. Poznan: Poznan Museum, 1989.
|
|
|
|
Minke, G. *Building with Earth Design and Technology of a
|
|
Sustainable Architecture*. Berlin: Birkhäuser -- Publishers for Architecture, 2006.
|
|
|
|
Mohammed, Abdel Hadi. *A Survey of the Third Cataract Region
|
|
(Western Bank of the Nile)*. Unpublished BA Dissertation. The University of
|
|
Khartoum, 1978.
|
|
|
|
Morgenstein, M., and C. Redmount. "Mudbrick Typology, Sources and
|
|
Sedimentological Composition: A Case Study from Tell El- Muqdam,
|
|
Egyptian Delta." *Journal of the American Research Center in Egypt* 35 (1998):
|
|
pp. 129--46.
|
|
|
|
Mueller, M.S. and E. Mechler. *Medicinal Plants in Tropical Countries.
|
|
Traditional Use--Experience--Facts*. Stuttgart: Georg Thieme Verlag, 2005.
|
|
|
|
Nussinovitch A. *Plant Gum Exudates of the World: Sources,
|
|
Distribution, Properties, and Application". Boca Raton: CRC Press, 2010.
|
|
|
|
O'Rourke, M. K. "Pollen from Adobe Brick." *Journal of
|
|
Ethnobiology* 3/1 (1983): pp. 39--48.
|
|
|
|
Osman, A. and D.N. Edwards. *The Archaeology of a Nubian
|
|
Frontier: Survey on the Nile Third Cataract, Sudan*. Leicester: Mauhaus Publishing, 2011.
|
|
|
|
Osman M.A. "Chemical and Nutrient Analysis of Baobab (*Adansonia
|
|
Digitata*) Fruit and Seed Protein Solubility." *Plant Foods for Human Nutrition*
|
|
59 (2004): pp. 29--33.
|
|
|
|
Out, W. A., Ryan, P., García-Granero, J. J., Barastegui, J., Maritan, L., and
|
|
M. Madella. "Plant Exploitation in Neolithic Sudan: A Review in the
|
|
Light of New Data from the Cemeteries R12 and Ghaba." *Quaternary
|
|
International* 412 (2016): pp. 36--53.
|
|
|
|
Pock Tsy, J.-M.L., Lumaret R., Mayne D., Vall A.O.M., Abutaba Y.I.M., and M. Sangna. "Chloroplast DNA Phylogeography Suggests a West African Centre of
|
|
Origin for the Baobab, *Adansonia digitata* L. (Bombacoideae,
|
|
Malvaceae)". *Molecular Ecology* 18/8 (2009): pp. 1707--15.
|
|
|
|
Pokorna A. and J. Beneš. "Plant Macroremains from the Old Kingdom
|
|
Mudbrick Construction of the Werkaure Tomb. Results of Carpological and
|
|
Xylotomical Analyses." In *Mastaba of Werkaure. Vol. I
|
|
(Old Kingdom Strata)*, edited by J. Krejí, pp. 283--93. Prague: Charles University in Prague, Faculty of
|
|
Arts, 2014.
|
|
|
|
Pumpelly, R. (ed.) *Explorations in Turkestan*. Washington: Carnegie Institution, 1908.
|
|
|
|
Riggs, C. R. *The Architecture of Grasshopper Pueblo. Salt Lake
|
|
City*. Salt Lake City: University of Utah Press, 2001.
|
|
|
|
Roberts, M. *Indigenous healing plants*. Johannesburg: Southern Book Publishers, 1990.
|
|
|
|
Rowley-Conwy, P.A. "Sorghum from Qasr Ibrim, Egyptian Nubia,
|
|
c.800BC -- 1811AD: A Preliminary Study." In *New
|
|
light on Early Farming. Recent Developments in Paleoethnobotany*, edited by Jane.M. Renfrew, pp. 191--211.
|
|
Edinburgh: University Press, 1991.
|
|
|
|
Rowley-Conwy, P.A., Deakin, W.J., and C.H. Shaw. "Ancient DNA from
|
|
Archaeological Sorghum (Sorghum bicolour) from Qasr Ibrim, Nubia. Implications for
|
|
Domestications and Evolution and Review of Archaeological Evidence."
|
|
*Sahara* 9 (1997): pp. 23--34.
|
|
|
|
Ryan, P., Cartwright, C., and N. Spencer. "Archaeobotanical Research
|
|
in a Pharaonic Town in Ancient Nubia." *Technical Research Bulletin* 6 (2012): pp. 97--107.
|
|
|
|
Ryan, Philippa. "Plant Exploitation from Household and Landscape Perspectives: The Phytolith Evidence." In *Humans and Landscapes of Catalhoyuk:
|
|
Reports from the 2000--2008 Seasons*, edited by I. Hodder, pp. 163--90.
|
|
Los Angeles: Cotsen Institute of Archaeology, 2013.
|
|
|
|
Schütt, P. and H. Wolf. "Adansonia Digitata." In *Bäume der Tropen*, edited by Peter Schütt,
|
|
Weisgerber, H., Schuck H.J., Lang U., Stimm B., and A. Roloff, pp. XXX. Hamburg: Nicol Verlagsgesellschaft, 2014.
|
|
|
|
Sergeev A. Yu., Lebedeva E. Yu., and M.A. Lebedev. "Mudbricks from
|
|
Giza and Abu Erteila: Archaeobotanical, Technological, and Historical
|
|
Aspects of Study." *Vostok (=Oriens)* 5 (2019): pp. 6--29.
|
|
DOI: 10.31857/S086919080006891-7.
|
|
|
|
Shinnie, P. L. and J. R. Anderson. *The Capital of Kush 2. Meroë
|
|
Excavations 1973-1984*. Meroitica 20. Wiesbaden: Harrassowitz, 2004.
|
|
|
|
Singh, B.N., Singh, B.R., Singh, R.L., Prakash, D., Sarma, B.K., and H.B. Singh. "Antioxidant and Anti-Quorum Sensing Activities of Green Pod
|
|
of *Acacia Nilotica* L". *Food and Chemical Toxicology*. 47/4 (2009): pp. 778--86.
|
|
|
|
Snowden, Joseph D. *The Cultivated Races of Sorghum*. London:
|
|
Adlard & Sons, 1936.
|
|
|
|
Stemler, Ann B. L. "A Scanning Electron Microscopic Analysis of
|
|
Plant Impressions in Pottery from the Sites of Kadero, El Zakiab, Um
|
|
Direiwa and El Kadada." *Archéologie du Nil Moyen* 4 (1990): pp. 87--105.
|
|
|
|
Teel Wayne and Terry Hirst. *A pocket directory of trees and seeds in Kenya*.
|
|
Nairobi: Kengo, 1990.
|
|
|
|
Trigger, B. G.. *History and Settlement in Lower Nubia*. Yale
|
|
University Publication in Anthropology 69. New Haven, CT: Yale University, 1965.
|
|
|
|
Van Beek, G. W. and O. Van Beek. *Glorious Mud! Ancient and
|
|
Contemporary Earthen Design and Construction in North Africa, Western
|
|
Europe, the Near East, and Southwest Asia*. Washington, DC: Smithsonian
|
|
Institute Scholarly, 2008.
|
|
|
|
Van der Veen, M. "The Plant Remains." In *Soba: Archaeological Research at a Medieval Capital on
|
|
the Blue Nile*, edited by D.A. Welsby and C. M. Daniels, pp. 264--74. British Institute in Eastern Africa Monograph 12.
|
|
London: British Institute in Eastern Africa, 1991.
|
|
|
|
Vantini, G. *Oriental Sources Concerning Nubia*. Warsaw and Heidelberg: Polish Academy of Sciences and
|
|
Heidelberger Akademie der Wissenschaften, 1975.
|
|
|
|
Van Wyk B.E. *Food Plants of the World: an Illustrated Guide*.
|
|
Portland: Timber Press, 2006.
|
|
|
|
Venter F. and J.A. Venter. *Making the Most of Indigenous Trees*.
|
|
Pretoria: Briza Publications, 1996.
|
|
|
|
Wasylikowa, Krystyna and Jeff Dahlberg. "Sorghum in the Economy
|
|
of the Early Neolithic Nomadic Tribes at Nabta Playa, Southern Egypt."
|
|
In *The exploitation of plant resources in
|
|
ancient Africa*, edited by M. van der Veen, pp. 11--32. New York: Kluwer, 1999.
|
|
|
|
Walsh, R.P.D. "Climate, Hydrology, and Water Resources." In *The agriculture of the Sudan*, edited by G.M. Craig,
|
|
pp. XXX. Oxford: Oxford University Press, 1991.
|
|
|
|
Wenkel, A. *Im Schatten des Baobabs*. Berlin: Jaja Verlag, 2014.
|
|
|
|
Wilcox, G. and S. Fornite. 1999. "Impressions of Wild Cereal Chaff in
|
|
Pise from the 10th Millennium Uncal B.P. at Jerf Ahmar and Mureybet:
|
|
Northern Syria." *Vegetation History and Archaeobotany* 8 (1999): pp. 21--24.
|
|
|
|
Winchell, F., Stevens, C., Murphy, C., Fuller, D.Q., Manzo, A. and
|
|
A. Beldados. "Evidence for Sorghum Domestication in Fourth
|
|
Millennium BC Eastern Sudan: Spikelet Morphology from Ceramic
|
|
Impressions of the Butana Group". *Current Anthropology* 58 (2017): pp. 673--83.
|
|
|
|
Zohary, D. and M. Hopf. *Domestications of Plants in the Old
|
|
World, the Origin and Spread of Cultivated Plants in West Asia, Europe
|
|
and the Nile Valley". Oxford: Oxford University Press, 1988.
|
|
|
|
|
|
[^1]: Alvaro et al., "The Study of the Fourth Millennium Mudbricks at Arslantepe"; Arpin and Goldberg, "Using Optical Microscopy to Evaluate
|
|
Human History"; Morgenstein and Redmount, "Mudbrick Typology, Sources and Sedimentological Composition."
|
|
|
|
[^2]: On the active role of architecture as material culture, see Love
|
|
"Architecture as Material Culture"; Riggs, *The Architecture of Grasshopper Pueblo*. On mudbrick as a good source for botanical
|
|
evidence, see Henn et al., "Desiccated Diaspores from Building Materials." On chaff impressions, see Wilcox and
|
|
Fornite, "Impressions of Wild Cereal Chaff." On phytoliths, see Ryan, "The Phytolith Evidence." On diatoms, see Flower,
|
|
"Diatoms in Ancient Building Materials." On pollen, see Ayyad et al., "Mudbrick as Bearer of
|
|
Agricultural Information"; O' Rourke, "Pollen from Adobe Brick."
|
|
|
|
[^3]: Pumpelly, *Explorations in Turkestan*.
|
|
|
|
[^4]: Minke *Building with Earth Design and Technology of a
|
|
Sustainable Architecture*, pp. 11--12.
|
|
|
|
[^5]: Van Beek and Van Beek *Glorious Mud!*, p. 135.
|
|
|
|
[^6]: Hillman, "Traditional Husbandry and Processing of Archaic
|
|
Cereals in Recent Times," pp. 127--8.
|
|
|
|
[^7]: Homsher, "Mudbricks and the Process of Construction in the
|
|
Middle Bronze Age Southern Levant," p. 3.
|
|
|
|
[^8]: Mohammed, *A Survey of the Third Cataract Region*, p. 55; Osman and Edwards, *The Archaeology of a Nubian Frontier*.
|
|
|
|
[^9]: Mohammed, *A Survey of the Third Cataract Region*, pp. 53-- 4; Osman and Edwards, *The Archaeology of a Nubian Frontier*.
|
|
|
|
[^10]: Pokorná and Beneš, "Plant Macroremains from the Old Kingdom
|
|
Mudbrick Construction of the Werkaure Tomb."
|
|
|
|
[^11]: Homsher , "Mudbricks and the Process of Construction in the
|
|
Middle Bronze Age Southern Levant"; Houben and Guillaud, *Earth Construction*, p. 82.
|
|
|
|
[^12]: Sergeev et al., "Mudbricks from Giza and Abu Erteila."
|
|
|
|
[^13]: Zohary and Hopf, *Domestications of Plants in the Old World*, p. 13.
|
|
|
|
[^14]: On the use of plants during the burial ceremony, see Out et al.,
|
|
"Plant Exploitation in Neolithic Sudan"; On the dating of the site, see Geus, "Two Seasons in Sai Island."
|
|
|
|
[^15]: Ryan et al., "Archaeobotanical Research in a Pharaonic Town in Ancient Nubia."
|
|
|
|
[^16]: On the Napatan site HP736 in the Wadi Umm Rahau at the Fourth
|
|
Nile Cataract, see Badura, "Plant Remains from the Napatan Settlement in Wadi
|
|
Umm-Rahau." On the Egyptian and Napatan site in
|
|
Kawa, see Fuller, "Early Kushite Agriculture." On Gala Abu Ahmad, see Kahlheber, "Archaeobotanical Investigations at the Gala Abu
|
|
Ahmed Fortress in Lower Wadi Howar, Northern Sudan." On
|
|
Meroe, see Shinnie and Anderson, *The Capital of Kush 2*, p. 366.
|
|
|
|
[^17]: Fuller et al., 2014. THIS REFERENCE IS NOT IN THE BIBLIOGRAPHY
|
|
|
|
[^18]: Doggett, *Sorghum*; Hulse et al., *Sorghum and Millets*; Snowden, *The Cultivated Races of Sorghum*.
|
|
|
|
[^19]: On the Eastern Sahara, see Wasylikowa et al, 1995. THIS REFERENCE IS NOT IN THE BIBLIOGRAPHY. On Central
|
|
Sudan, see Stemler, "A Scanning Electron Microscopic Analysis of Plant Impressions in Pottery."
|
|
|
|
[^20]: Rowley-Conwy, "Sorghum from Qasr Ibrim"; Rowley-Conwy et al., "Ancient DNA from
|
|
Archaeological Sorghum (Sorghum bicolour) from Qasr Ibrim."
|
|
|
|
[^21]: Winchell et al., "Evidence for Sorghum Domestication in Fourth
|
|
Millennium BC Eastern Sudan."
|
|
|
|
[^22]: Magid, "Exploitation of Plants in the Eastern Sahel (Sudan)."
|
|
|
|
[^23]: Beldados, "Millets in Eastern Sudan," pp. 507, 509.
|
|
|
|
[^24]: Fernandez, *La Cultura Alto-Meroitica del Norte de Nubia*.
|
|
|
|
[^25]: Fuller and Edwards, "Medieval Plant Economy in Middle Nubia."
|
|
|
|
[^26]: Fuller, "The Economic Basis of the Qustul Splinter State."
|
|
|
|
[^27]: Adams, *Nubia: Corridor to African*; Trigger, *History and Settlement in Lower Nubia*.
|
|
|
|
[^28]: Fuller, "The Economic Basis of the Qustul Splinter State."
|
|
|
|
[^29]: On the historical texts, see Vantini, *Oriental Sources Concerning Nubia*.
|
|
|
|
[^30]: Wadi Kubbaniya, near Aswan, Egypt, see Hardy and Kubiak-Martens, *Wild Harvest*.
|
|
|
|
[^31]: On the complex of burial sites, see Buckley et al., "Dental
|
|
Calculus." On Kawa, see Fuller, "Early Kushite Agriculture," p. 71.
|
|
|
|
[^32]: Auld and Medd 1987. THIS REFERENCE IS NOT IN THE BIBLIOGRAPHY; Parsons and Cuthbertson 2001. THIS REFERENCE IS NOT IN THE BIBLIOGRAPHY.
|
|
|
|
[^33]: Bendixen and Nandihalli, "Worldwide Distribution of Purple
|
|
and Yellow Nutsedge."
|
|
|
|
[^34]: Gunasekera and Fernando, "Agricultural Importance,
|
|
Biology, Control and Utilization Cyperus rotundus."
|
|
|
|
[^35]: Buckley et al., "Dental Calculus"; Hamdeen, "Preliminary Observation on the Plant Remains."
|
|
|
|
[^36]: On the medicinal and nutritional values, see Andrews, *The Flowering Plants of the Anglo-Egyptian Sudan*;
|
|
Mabberley, *A Portable Dictionary of Plants*. On importation by pastorialists, see Pock Tsy et al., "Chloroplast DNA Phylogeography."
|
|
|
|
[^37]: On foodstuffs to local communities, see Van Wyk, *Food Plants of the World*; Kabore et
|
|
al., "A Review of Baobab (*Adansonia digitata*) Products." On fodder, see Venter and Venter, *Making the Most of Indigenous Trees; De Caluwe, *Market Chain Analysis of Baobab*;
|
|
Bekele-Tesemma, *Useful Trees and Shrubs of Ethiopia*. On fibers for weaving and rope-making, see
|
|
Teel and Hirst, *A pocket directory of trees and seeds in Kenya*. On gum, see Roberts, *Indigenous healing plants*; Nussinovitch, *Plant Gum Exudates of the World*. On
|
|
seed oil, see Osman, "Chemical and Nutrient Analysis of Baobab"; Kamatou et al., "An Updated Review of Adansonia Digitata." On natural medicine,
|
|
see Mueller and Mechler, *Medicinal Plants in Tropical Countries*; Iwu, *Handbook of African Medicinal Plants*; Lim, *Edible Medicinal and Non-Medicinal Plants*. On materials for
|
|
dishes, see Schütt and Wolf, "Adansonia Digitata." On water storage, see Walsh, "Climate, Hydrology, and Water Resources."
|
|
|
|
[^38]: Gebauer and Ebert, "Tropische Wildobstarten."
|
|
|
|
[^39]: Buthelezi, *Baobab*; Wenkel, *Im Schatten des Baobabs*.
|
|
|
|
[^40]: Beldados, "Millets in Eastern Sudan."
|
|
|
|
[^41]: Abd-El-Nabi et al., "Antimicrobial Activity of *Acacia nilotica*."
|
|
|
|
[^42]: Ebrahim et al., "Study on Selected Trace Elements and Heavy
|
|
Metals in Some Popular Medicinal Plants from Sudan."
|
|
|
|
[^43]: Auwal et al., "Antibacterial Properties."
|
|
|
|
[^44]: Singh et al., "Antioxidant and Anti-Quorum Sensing Activities."
|
|
|
|
[^45]: Abdalla et al., "Fodder Potential."
|
|
|
|
[^46]: On Kawa, see Fuller, "Early Kushite Agriculture," p. 71. On Nauri, see Fuller and Edwards, "Medieval Plant Economy in Middle Nubia," p. 99.
|
|
On Banganarti, see Hamdeen and Pokorny, "Plant Impressions," p. 208.
|
|
|
|
[^47]: Hamdeen and Pokorny, "Plant Impressions."
|