Abstract
Heather, Calluna vulgaris, is a key species of European dry heath and central determinant of its conservation status. The established Calluna life cycle concept describes four phases—pioneer, building, mature, and degeneration—distinguishable by growth and vitality characteristics of undisturbed plants grown from seeds. However, little is known about the life cycle and ageing of plants subjected to severe disturbance, although measures to this effect (burning, mowing) are common in heathland management. We studied the vitality of over 400 heather plants by examining multiple morphological (plant height, long shoot and inflorescence lengths, flowering activity), anatomical (growth rings) and environmental (management, nitrogen deposition, climate) attributes. We found Calluna vitality to be mainly determined by the aboveground stem age, and that severe disturbances promote vigorous vegetative regeneration. Ageing-related shifts in the habit and vitality of plants resprouting from stem-base buds is similar to that of seed-based plants, but the former revealed higher vitality when young, at the cost of a shorter life span. In contrast, plants originating from decumbent stems resemble building-stage plants but apparently lack the capacity to re-enter a cycle including stages other than degeneration-type. As a consequence, we supplemented the established heather life cycle concept with a post-disturbance regeneration cycle of plants derived from resprouting. We conclude that management of dry lowland heathlands should include rotational small-scale severe disturbance to support both seed germination and seedling establishment as well as vegetative regeneration chiefly of young heather plants capable of resprouting from buds near rootstock.
Highlights
IntroductionCalluna vulgaris ( referred to as Calluna or heather) is the dominant species of European dry heath and inland dune heath (European Union Habitats Directive Annex 1 habitat types 4030 and 2310, European Commission 2013)
Calluna vulgaris is the dominant species of European dry heath and inland dune heath (European Union Habitats Directive Annex 1 habitat types 4030 and 2310, European Commission 2013)
This variance explained by area is the spatial autocorrelation effect in vitality not explained by age, but probably study area-specific differences in managements, nitrogen and oceanicity (Online Resource 2: Figs. 1, 3, and 5)
Summary
Calluna vulgaris ( referred to as Calluna or heather) is the dominant species of European dry heath and inland dune heath (European Union Habitats Directive Annex 1 habitat types 4030 and 2310, European Commission 2013) It is an evergreen small shrub of rarely more than 60 cm, multiple-stemmed and much-branched with numerous axillary short shoots and erect long shoots terminating in long raceme-like inflorescences. Most widely used in this context is the life cycle concept of heather conceived by Watt (1955) and refined by Gimingham (1972, 1975) This concept defines development phases centred on age-related attributes such as plant height and shape, growth, flowering intensity and the proportion of dead shoots. Variations in growth form with dense compact prostrate stems with short internodes have been reported to be caused by stress, such as exposure to wind at high altitudes or heavy grazing pressure (Gimingham 1975)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
