The allelopathic properties of decomposing buckwheat residues are not directly related to phenolic compounds in soil

Abstract: Previous studies have shown that residues of common buckwheat roots (BRR) (but not entire common buckwheat plants, BPR) in the soil inhibited the growth of barnyardgrass (Echinochloa crus-galli L.). The objective of the study was to determine how both the residues affect the content of free phenolics, their esters and glycosides in the soil. The aqueous extracts were used to analyse of unbound phenolic compounds, while those bound to the soil were extracted with sodium citrate. Moreover, an in vitro test was u… Show more

“…According to Falquet et al [24], the high inhibitory potential of buckwheat extracts reduced seed germination and compromised seedling development. Similarly, several allelochemical compounds from decomposing residues of buckwheat plants in Poland production fields exhibited strong negative effects on barnyardgrass by reducing either germination or growth plant [25].…”

Do Aqueous Extracts from Buckwheat Compromise Seed Germination and Initial Development of <i>Bidens pilosa</i> and <i>Euphorbia heterophylla</i>?

“…According to Falquet et al [24], the high inhibitory potential of buckwheat extracts reduced seed germination and compromised seedling development. Similarly, several allelochemical compounds from decomposing residues of buckwheat plants in Poland production fields exhibited strong negative effects on barnyardgrass by reducing either germination or growth plant [25].…”

Do Aqueous Extracts from Buckwheat Compromise Seed Germination and Initial Development of <i>Bidens pilosa</i> and <i>Euphorbia heterophylla</i>?

Seed fungal endophytes promote the establishment of invasive Poa annua in maritime Antarctica