Allelopathy and the Alliaria Petiolata

However, there is little doubt about how such plant species can interfere with the growth and development of other plants in a particular area. Many researchers did not mention how this plant species affects carbon and nutrient circulation in specific environments in their study. They also did not experiment to prove their argument. Unfortunately, by studying this fault, Alliaria petiolata conquered and expanded in North America.

Allelopathy is characteristic of certain plants, algae, bacteria, corals, fungi. Allelopathic interactions are an important factor in determining the distribution and abundance of species within plant communities and are thought to be important for the success of many invading plants. For specific examples, see Empetrum hermaphroditum, Centaurea maculosa, Alliaria petiolata, Casuarina / Allocasuarina spp. And Nutsedge. The process by which plants obtain more available resources (eg, nutrients, water, or light) from the environment without having a chemical effect on the surrounding plants is called resource competition. This process is not a negative allelopathy, the two processes can work together to increase the survival rate of plant species.

A troublesome secondary attention is that invasive weeds can use allelopathy to stop competition. In many areas, the rapid spread of garlic mustard (Alliaria petiolata) seems to indicate an allergy feeling. Other non-natural products such as Lythrum salicaria and Centaurea maculosa also seem to have the benefit of allelopathic toxins. But do not panic as your garden may have fighting plants. If they keep distance, they can live with peace of mind. Soil quality may be a factor in how long toxins are preserved. The heavier the soil, the longer the toxin is trapped. Sufficiently drained soil will transfer toxins under the rhizosphere of nearby plants

Allelopathy effect is a sub-discipline of chemical ecology focusing on the influence of chemicals produced by plants and microorganisms on the growth, development, distribution of natural plants and other plants and microorganism agricultural systems (Einhellig , 1995). Research on allelopathic effects has increased in the 1970s, has rapidly developed since the mid-1990s, has recently become a topic in botany, ecology, agriculture, soil science, gardening and other research areas. . Allelopathy interactions can be one of the important factors leading to the distribution and abundance of species within plant communities and are important for the success of invasive plants (Chou, 1999; Mallik, 2003; Field et al. 2006; Inderjit et al., 2006; Zheng). For example, water hyacinth (Eichhornia crassipes Mart.Solms) (Jin et al., 2003; Gao and Li, 2004), Spotaurea stoebe L. ssp and the like.

Advances in research on physiological and ecological mechanisms of allelopathic and allelopathic effects of agricultural crops