Dense crowns of the hemiparasitic mistletoe Viscum album L. exhibit shrub-like growth and high dry matter turnover

Growth characteristics and crown parameters of the evergreen, hemiparasitic mistletoe Viscum album were studied using a growth model based on the regular dichotomous growth and conservancy of branching patterns. Data were collected from one final harvest of 13 individuals of three different subspecies growing on the hosts Betula pendula, Abies alba and Pinus sylvestris. Compared to Viscum album ssp. album growing on deciduous hosts, the two subspecies abietis and austriacum (syn. laxum) on evergreen hosts showed longer average leaf life spans, but leaves continuously increased in area over time up to an age of at least 4 years irrespective of host. Relative growth rates in plant dry matter (RGR; 0.53–0.61 g g−1 a−1) were in the same range as of deciduous shrubs in central Europe but clearly higher than in mature forest trees. However, this growth is hidden within the spherical crowns of mistletoes, as annual increase in crown volume is extraordinarily low, resulting in very high leaf area densities (LAD; 7.7–17.6 m2 m−3), not found in any other woody species. Besides differences in leaf size and phenology, the three subspecies exhibit similar patterns of partitioning. As in other mistletoe species, significant parts of dry matter are regularly allocated into fruit production (10–15%). Regarding the generally lower net photosynthesis rates in mistletoes as compared to their hosts, it is questioned, whether photoautotrophic carbon gain of the leaves is sufficient to maintain the observed high relative growth rates.