Nowadays most plant textiles used for clothing and household are made of cotton and viscose. Before the 19th century however, plant textiles were mainly made from locally available raw materials, in Scandinavia these were: nettle, hemp and flax. It is generally believed that in Viking and early Middle Ages Scandinavia hemp was used only for coarse textiles (i.e. rope and sailcloth). Here we present an investigation of 10 Scandinavian plant fibre textiles from the Viking and Early Middle Ages, believed to be locally produced. Up till now they were all believed to be made of flax. We show that 4 textiles, including two pieces of the famous Överhogdal Viking wall-hanging are in fact made with hemp (in three cases hemp and flax are mixed). This indicates that hemp was important, not only for coarse but also for fine textile production in Viking and Early Middle Ages in Scandinavia.
There is archaeological evidence, based mainly on the finds of pollen and seeds, that hemp (Cannabis sativa) and flax (Linum usitatissimum) were grown in northern Scandinavia (Norway and Sweden). An overview of the locations of different finds can be found on the map in Fig. 1.
In Norway there are early finds of hemp and flax pollen from the inner Oslo Fjord area, about 350 BC–450 AD (considerably more hemp than flax pollen was found1). Pollen and hemp seeds were found in a settlement in Hamar from around 400 AD2. There are finds of hemp pollen from around 650 and 800 AD, from the inland of Åseral in Vest-Agder3 and both hemp and flax seeds were found in the famous Viking burial mound, the Oseberg ship in Vestfold county from around 800 AD4,5,6.
From Sweden in Jämtland, Rödön parish, near Lake Storsjön there are finds of hemp pollen, about 100–200 AD7. The first flax seeds were found in Hälsingland, in Trogsta about 200 century AD8,9. Another early find from Hälsingland of flax seeds, in a bog near a settlement in Forsa indicate that flax was cultivated and retted there about 300 AD8,10. There are also finds of bundles of flax from Kärinsjö, in the province of Halland, from about 200–300 AD8,11. From the Viking Age, 800–1050 AD there are more finds of hemp pollen and hemp seeds, for example from the area Lake Mälaren, near Stockholm, and in the area Lake Storsjön, near Rödön. In addition there are finds of pollen, seeds and fibres of hemp from the area of Lake Siljan in Dalarna7. Both flax and hemp seeds were found in the area south of Lake Siljan, near Leksand12.
The finds of hemp and flax pollen and seeds do not prove conclusively that textile production really took place. Only finds of retted fibres can do that. It is possible that the plants were grown for other purposes, i.e. the use of the seeds as food or oil. This applies both to hemp and flax. Unfortunately the preservation conditions in Scandinavia are such that plant fibre textiles normally do not survive well. There are some early remains of plant fibre textiles from Sweden from around 400–500 AD, from Fullerö in the province Uppland, and from Augerum in Blekinge in the south8. More textile remains are preserved from the Viking and Middle Ages, for example at the Viking site of Birka at Lake Mälaren13. There is also a find from Norway, in the Oseberg ship, from about 800 AD, consisting of a woven tapestry made of wool together with plant fibres, but the plant fibres were largely decomposed14.
Despite the archeological finds showing that hemp and flax were both grown in the north of Scandinavia in the Viking and Early Middle Ages and despite the fact that hemp fibres can be almost as fine as flax fibres15 it has hitherto generally been believed that hemp was used primarily for coarse textiles i.e. ropes and sailcloth4,16,17,18,19 and that flax was the common textile plant for fine clothing and household textiles in Northern Scandinavia in this period.
This is reflected in the fact that throughout the literature, including but not restricted to the literature on Scandinavian Viking and Early Middle Ages, most fine plant fibre textile remains are referred to as flax without any mentioning of analytical tests. One of the few exceptions from this is Agnes Geijer, who in the 1930s investigated the textile finds from the Swedish Viking settlement Birka, near Lake Mälaren. She introduced the term FH (Flax/Hemp) for all plant fibre material13 and called for a scientific method for proper identification “It was the difficulty involved in firmly distinguishing between the two bast species that led me to employ the cryptic designation FH (Flax/Hemp) in the original classification. Such finds were made in about forty-five graves.”20. To this day these fibres remain unidentified.
Part of the problem is that a systematic investigation of plant fibre textiles has been hampered by the difficulty of fibre identification. Fibres from animals (wool, fur and hair) and plant fibres in general can easily be distinguished because animal fibres have scales21, but to distinguish between individual plant fibres is much more difficult22. Samples have often been identified as flax purely on the basis of examinations with standard, white light, compound microscopy. This is insufficient to secure a proper identification23,43.
The 10 textiles that we investigate here are all woven and made of plant fibres combined with wool. They have been carbon-14 dated to 780–1420 AD4. They are believed to be locally produced on the basis of the patterns and textile techniques24. They all belonged to different churches and are among the oldest and finest preserved Scandinavian textiles found above ground. A considerable number of medieval textiles have been preserved in Swedish churches. The reason is that the Reformation in Sweden did not cause such immediate, drastic changes in the church décor as, in most other countries, for example Denmark25. The old church textiles in Sweden were widely used even after the Reformation26.
All 5 pieces of the famous Swedish Överhogdal Viking wall-hanging were examined, see Fig. 2 for a picture. For a picture of the Norwegain Lomen coverlet see Fig. 3 and for a picture of the Marby hanging, Fig. 4. For an overview of all textiles, including fibre identification, see Table 1. The locations where the textiles were found are indicated on the map in Fig. 1. In the literature all these textiles are listed as being flax, without any proper references to the methods that have been used for the fibre identifications.
Our results show that 4 of the 10 investigated textile samples contained hemp fibres. They do not differ in quality from the other textiles. The Lomen coverlet was the only sample were only hemp fibres were found. Three other samples were found to contain a mixture of hemp and flax: The Marby hanging and the Överhogdal wall-hangings Ia and Ib. In the other Överhogdal pieces only flax fibres were identified. This is an important result in its own right, since it provides an independent support for the theory that the pieces Ia and Ib are woven on the same warp4,24. To the best of our knowledge the Överhogdal and Marby measurements provide the first proof that mixed plant fibres were used in the Scandinavian Viking and Early Medieval Textile production.
It is possible that mixed fibres may have been used in other textiles as well and that we just did not find them. In some cases the museums only provided threads from the warp or weft. It is possible that different material may have been used in the warp and the weft. We can also not know for sure if the plant fibre material used in the examined textiles is really locally produced. In principle it could be imported. A strontium isotope analysis could possible one day provide the answer to this34.
Our results show that the role of hemp in the Scandinavian cultural history needs to be reconsidered. Hemp was not used solely for the production of coarse textiles such as ropes and sailcloth; it was also used in the production of fine household textiles in Scandinavian Viking and Middle Ages. The big question, from a cultural history and historical research management point of view is: Why use one material instead of another? When hemp and when flax?
Until the true distribution of the use of hemp and flax in Scandinavia and other places has been properly investigated through detailed fibre identification analysis, we cannot hope to come up with a conclusive answer to this, but we may speculate on the reasons:
While hemp and flax can both grow well on most good soil suitable for crops35, hemp can also, to some extend grow on soils with high pH and muddy soils not suitable for many other crops without the need for much soil preparation (i.e. plowing, burn-beating, rotation of crop or lie fallow)36. This type of soil is often found in mountain areas and in coniferous forest areas, in swamps and marshes and around lakes. The Överhogdal wall-hangings and Lomen coverlet were found in mountain areas and in march- and lake rich areas. The literature says that hemp cultivation was especially common in Jämtland during the 1700s and 1800s because the area has the characteristic soil needed. For optimal growth of flax the requirements are different37. For example a nitrogen rich soil does not give a nice flax fibre35,36. Flax grows well in a climate with uniform high humidity and rainfall where early summer drought does not occur. The coastal area of Hälsingland, a region that was known for flax cultivation from the Middle Ages has such a climate and also weeding was not so important here, due to good availability of suitable soil and favorable crop rotation36,38.
The simple answer to the question “when hemp and when flax?” could be that the preference for hemp or flax varied depending on the local growth conditions.
In later times flax became the most common textile plant for clothes and household textiles. It became so common that the word linen, became essentially synonymous with a flax textile. The origin of the word “linen” is debated, but it seems that originally it simply meant a woven fabric of a plant fibre39. During the end of the eighteenth century in the European linen trade, flax and hemp was often blended40. In “The workwoman's guide” from 1840, in a chapter about different qualities of linen, it is written that “The Suffolk hemp is considered the best”41. In another earlier book “The English Housewife” from 1683, the author Markham describes linen and its characteristics and writes that housewives must become proficient in the design of all types of linen fabric, whether it be of hemp or flax, he writes; "For from these two only the largest cloth come, and do so both in England and in other countries"42.
Eventually flax and hemp lost their important position to cotton and nowadays the word linen is often used for a plain weave fabric of cotton and cloth made of flax sometimes mistakenly referred to as cotton.
To summarize: In this paper we have shown that hemp was used in Northern Scandinavia in the Viking and Early Middle Ages for the production of fine household textiles. Of the 10 textiles investigated, 4 were found to be made with hemp: The famous Swedish Överhogdal wall-hangings Ia and Ib, supporting the theory that the two pieces are woven on the same warp, the Marby hanging and the Norwegian Lomen coverlet. The three first textiles were found to be made with mixed fibres. To the best of our knowledge these measurements provide the first proof that mixed plant fibres were used in the Scandinavian Viking and Early Medieval Textile production. Our results show that the role of hemp in the Scandinavian cultural history needs to be reconsidered. More generally it demonstrates how the lack of proper fibre identification in textile research can lead to a distorted view of the relative importance of different textile plants.
Hemp and flax are both bast fibres. Bast fibres (with the exception of wood bast) originate from the stem of a plant. Bast fibres are very similar in appearance and cannot be distinguished conclusively using standard white light, compound microscopy, as discussed in the previous section. DNA analysis of bast fibres is usually not possible. It is generally difficult to extract DNA even from modern bast fibres27. Further, the removal of the fibres from the plant stem (retting) involves exposure to water, thus increasing the likelihood of extensive hydrolytic damage to the DNA28,29. Fortunately there is one characteristic feature, which can be used for identification purposes. The cell walls in bast fibres contain the so-called fibrils. Fibrils are bundles of cellulose chains. In one of the cell wall layers these cellulose bundles rotate around the fibre. This is referred to as S-twist or Z twist of a fibre. Flax and nettle are S-twist and hemp is Z-twist (Fig. 5).
For more than 60 years the so-called modified Herzog test has been available as a way of measuring the fibrillar orientation of fibres using polarized light microscopy28. The modified Herzog test exploits the fact that the cellulose chains are bifringent. Unfortunately the Herzog test has not been widely used in the textile research community, except for a few cases, for example in reference30,31. Part of the problem with the Herzog test is that it was based on empirical evidence and sometimes it does not work. Recently one of the authors of this paper (Holst) and co-worker (Haugan) published an analytical model for the Herzog test32 showing why it works, why it never gives a false result and why it is sometimes not possible to identify a fibrillar orientation with the test.
In the modified Herzog test the fibre sample is placed between crossed polars and rotated to extinction (sample turns black). A red plate compensator is then inserted. A color change, dependent on the fibrillar orientation, will then occur in the sample part that was at extinction before. A S-twist fibre will turn yellow and a Z-twist fibre blue when close to parallel to the analyzer. The exact color change and angle will vary depending on the thickness of the fibre, cell membrane etc.32.
Samples of threads, about 1–3 cm long were collected from each textile by conservators at the associated museums. Single fibres were extracted from each sample and mounted on microscope slides following the procedure described in reference33. It is important that the mounting is done with great care. Only a few single fibre fragments, about 1–3 mm is needed for identification, but the older textile material tends to be brittle and this makes the procedure more difficult. All experiments were done using an Olympus BX-51P compound microscope equipped with a full wave compensator of wavelength 530 nm and objectives of the type UiS2 series, Ach N. After mounting, the microscope slides were labeled solely with numbers so that it was possible for one of the authors (Holst) and two assistants, who did not prepare the fibres to perform identifications as an independent blind test. The fibre identifications were also performed by the person who prepared the fibres (Skoglund). No conflicting measurements were obtained. For each sample 2–3 fibres were tested separately.
The fibrillar orientation of all textile samples could successfully be identified. The results are listed in Table 1. Note that strictly speaking we can only identify the hemp samples, since the samples with S-twist could in principle also be nettle15. A complete overview with images of all experimental results can be found in the online supplementary material for this paper.
Images of the modified Herzog test performed on the Överhogdal wall-hanging Ia can be found in Fig. 6.
This work was supported by The Agnes Geijer Foundation for Nordic Textile Research History and Bergens Research Foundation. We thank the museums in Sweden and Norway for their support and for allowing us to borrow textile threads from their collections. We thank A. S. Dinger and A. S. Palau for additional fibre tests. We also thank A. S. Dinger for preparing the images used in Figure 6 and in the online supplementary material document.
Online Supplementary Information for: Viking and Early Middle Ages Northern Scandinavian Textiles proven to be made with Hemp
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