Biology of Barley

4.5 Vegetative growth

The duration of the different developmental stages varies widely. Growth rate depends on the weather, water supply, soil fertility, the degree of competition with other plants, the presence of pests and diseases, and the time of planting. Initially growth is slow while the seedlings establish and the tillers form. Total time to maturity depends on variety, location and planting date. In south-east Qld, barley plants take between 105 and 157 days to reach maturity (Thomas & Fukai 1995).

The seminal rootlets of barley emerge when the seed germinates and form a fibrous branched mass of roots, some of which extend deeply downwards. Later, at the tillering stage, the adventitious root system arises from the crown, and this tends to be thicker and less branched. Under some conditions such as drought, the adventitious roots may not develop at all. In other cases, the seminal roots cease functioning during the life of the plant. Different barley varieties can vary significantly in rooting system, and this can impact on their competitive ability (Briggs 1978).

After germination, the coleoptile (a leaf sheath that encloses the embryonic plant) reaches the surface and the first leaf emerges at its tip. The leaves grow rolled up from the tube formed by the bases of earlier leaves, unrolling once emerged (Briggs 1978). Leaves emerge continuously on the main stem and tillers until the final (flag) leaf emerges. Emergence of the flag leaf is an important growth stage for timing the application of certain growth regulators. The mature leaves progressively senesce and gradually the whole plant dries out until full maturity, when the grain is ripe (Briggs 1978).

Stem elongation usually starts when the plant is about 5 cm in height and coincides with leaf emergence, tillering and spike formation (Briggs 1978). During stem elongation the developing spike is carried upwards.

Tillers start to develop at about the 3-leaf stage (Figure 3). The number of tillers and duration of tillering vary with variety and growth conditions (Briggs 1978). Some older genotypes produce many tillers but develop few spikes, while most modern genotypes have a higher percentage of tillers that develop spikes (Gomez-Macpherson 2001). In addition, winter varieties usually produce more tillers than spring varieties during the vegetative growth period over winter. In general, field grown barley plants typically produce 2–5 tillers (Briggs 1978; Gomez-Macpherson 2001). Most tillers initiate adventitious roots, although later appearing tillers often remain unrooted and die prematurely (Anderson-Taylor & Marshall 1983).

Section 5 Biochemistry

5.1 Toxins

5.2 Allergens

Ingestion of barley may induce symptoms of food allergy in sensitive individuals, especially children. Symptoms include gastrointestinal complaints, atopic dermatitis and anaphylaxis, (Armentia et al. 2002). Contact dermatitis and anaphlaxis can also be induced by barley proteins present in beer. Two proteins were identified from a crude protein preparation of beer which gave positive sera and contact test results in some sensitive individuals (Garcia-Casado et al. 2001).

Barley pollen expresses proteins capable of cross reactivity with known anti-allergen antibodies and therefore the pollen may represent a potential source of aeroallergenic proteins for individuals near agricultural sites (Astwood et al. 1995).

Coeliac disease

Coeliac disease is a condition in which the small intestine is damaged when exposed to gluten, which is found in wheat, barley, rye and triticale (Digestive Health Foundation 2012). This results in poor absorption of nutrients and a variety of related issues (Digestive Health Foundation 2012).

Inheritance of coeliac disease is multigenic and has been strongly associated with European populations (Kasarda 2004). It is more prevalent in females than in males (Hischenhuber et al. 2006). Estimates of the prevalence of coeliac disease vary widely across locations and times (Simmonds 1989; Fraser & Ciclitira 2001; Catassi et al. 1996). In Australia, the prevalence of coeliac disease is estimated at approximately one in 100 (Digestive Health Foundation 2012), which is similar to recent rates estimated for Europe, North and South America, north Africa and the Indian subcontinent (Hischenhuber et al. 2006).

Symptoms of coeliac disease vary and sufferers may have many symptoms or none. They commonly include diarrhoea, weight loss, nausea, flatulence and abdominal discomfort, as well as tiredness and weakness often due to a degree of iron and/or folic acid deficiency and resultant anaemia (Catassi et al. 1996; Digestive Health Foundation 2012).

Onset of symptoms may occur very early in life or may be delayed even until very late in life, resulting in speculation about environmental triggers for the disease, potentially including viral infection, parasitic infection (Giardia) and surgery (Kasarda 2004).

Release of the first gluten-free barley variety which should benefit coeliac and gluten-intolerant people has been reported (Tanner et al. 2016). The variety, Kebari™, contains less than 5 ppm hordeins, the type of glutens found in barley, which is well below the 20 ppm level recommended by the World Health Organization for classification as gluten-free⁷. Kebari has recently been used in Germany in the commercial production of gluten-free beer⁸.