Flowers are arranged in branched loose, leafless, terminal panicles (infloresences) 3-40cm long. \r\nMale and female flowers are borne of separate plants. Male flowers are orange-yellow; female flowers are red-orange. Female flowers have a single basal ovule; male flowers have six anthers (Pickering et al. 2003). Flowers consist of three scale-like sepals and three petals (Alaska Natural Heritage Program, 2006). Sepals of male flowers are reddish yellow, red or purplish or rarely pale green; sepals of female flowers are pure red to dark red or purplish (Agroatlas, 2009).\r\n\r\n
Fruits (achenes/nuts), often called are small (0.9-1.5 x 0.6-1mm), pale yellow-brown to slightly reddish brown, smooth, shiny (Agroatlas, 2009) and enclosed in three persistent flower scales (Alaska Natural Heritage Program, 2006).
Male and female plants exhibit sexual dimorphism in terms of growth patterns and resource allocation. For example, males allocate more resources to below-ground organs (Fujitaka & Sakai, 2007) and appear to be more drought tolerant Zimmerman & Lechowicz, 1982). These mechanisms may have evolved to enhance reproductive success (Fujitaka & Sakai, 2007).
While sheep sorrel contains oxalic acid which is poisonous to some livestock and wildlife species (Cal-IPC in Alaska Natural Heritage Program, 2006), it is grazed by mule deer. The seeds are rich food source for birds (Wilson et al. ,1999 in Alaska Natural Heritage Program, 2006).\r\n
It has also been used for revegetation in mining regions. (Alaska Natural Heritage Program, 2006) and is \r\neaten as a food in Turkey. A recent study demonstrated that it has antioxidant properties (Alpinar et al., 2009).
Sheep sorrel has small seeds that form persistent and deep seed banks, making it fire and heat resistant (Gonzalez & Ghermandi, 2008).
Plants are dioecous, meaning female and male flowers are borne on separate plants. Flowers are wind pollinated (Houssard & Escarre, 1991). Plants can produce up to 10,000 seeds (1mm in length). Optimum temperature for seed germination is 20-22°C. Seeds cannot germinate if buried more than 8-10cm below the surface. They retain germination capacity in the soil for as long as five (Agroatlas, 2009) or seven years (Steinbauer & Grigsby 1958 in Putwain et al., 1968), although up to 80 years has been reported (GOERT, 2009).\r\n\r\n
Reproduction via seedling establishment is common in recently disturbed regions, while in dense cover vegetative propagation is more common (Putwain et al., 1968).
Principal source:
Compiler: Comité français de l'UICN (IUCN French Committee) & IUCN SSC Invasive Species Specialist Group (ISSG)
Review:
Publication date: 2010-10-04
Recommended citation: Global Invasive Species Database (2024) Species profile: Rumex acetosella. Downloaded from http://iucngisd.org/gisd/speciesname/Rumex+acetosella on 26-12-2024.
It contains high levels of oxalic acid which may be poisonous to livestock and wildlife species (Alaska Natural Heritage Program, 2006; USDA Forest Service, 2006). It also causes hay fever in humans.
Chemical: In general control of Rumex acetosella can be achieved with readily available general herbicides such as dicamba or triclopyr. Follow label and country requirements (USDA Forest Service, 2006). Herbicides are most effective when applied to young and actively growing plants. As R. acetosella prefers acidic soils, control can be increased when combined with liming to increase soil pH (GOERT, 2009).\r\n\r\n
Other: Rumex acetosella infestations may actually increase after grazing or burning, as it survives via rhizomes in the soil or through seeds buried in the soil. These techniques are not recommended (GOERT, 2009).