FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3039496661> ?p ?o ?g. }

• W3039496661 endingPage "965" @default.
• W3039496661 startingPage "965" @default.
• W3039496661 abstract "The sustainable management of weeds is one of the main challenges in agriculture. Recent studies have demonstrated the potential of plant phytotoxins, such as ailanthone from Ailanthus altissima (Mill) Swingle, as bioherbicides. Since a complex extract may be more active than a single compound, we explored the phytotoxicity of A. altissima extracts obtained from the leaves, samaras, rachises, and secondary roots, and we evaluated their application potential for weed control in horticulture. The pre-emergence activity of all plant extracts was evaluated over varying concentrations on two indicator species (i.e., Lepidium sativum L. and Raphanus sativus L.) under controlled conditions. As the leaf extract was able to be generated in sufficient quantities, it was therefore further evaluated in glasshouse experiments with seven common weed species as indicators, as well as in a nursery production system for the cultivation of three horticultural crops (i.e., Salvia officinalis L., S. rosmarinus Schleid., and Dianthus caryophyllus L.). Following the application of the extract, the index of germination (IGe%), the index of biomass, and the density of weeds per pot were evaluated, along with the impact on crop growth and quality (i.e., plant growth index and leaf damage). Under controlled conditions, the extract from the secondary root was the most active in reducing the IGe%, with greater persistence across time in both indicator species. At 18 days following application, the lowest concentration of the leaf extract at 1.8 mg L−1 ailanthone reduced the IGe%by up to 15% and 45% in R. sativus and L. sativum, respectively. In R. sativus, all of the extract types affected the IGe%, but extract activity was greater in L. sativum. Under glasshouse conditions, leaf extracts containing 50 and 200 mg L−1 ailanthone showed strong inhibition (98%–99%) in the biomass of all treated indicator and weed species. Under nursery conditions, leaf extracts formulated at 100 and 200 mg L−1 ailanthone performed similarly, and no weeds were observed in any of the treated pots of S. officinalis and S. rosmarinus in the 60-day study period. Conversely, in the D. caryophyllus pots, an increase in the percentage of weed presence per pot was observed after 40 days. A reduction in the growth index and an increase in leaf phytotoxicity were observed during the cultivation experimentation, especially in S. officinalis when the extract was applied post-emergence to the crop canopy. Phytotoxicity was alleviated by the application of the extract directly to the soil or growth media. These results provide new insights into A. altissima extracts and their phytotoxicity to support their additional use as a sustainable solution for weed management in horticultural crops." @default.
• W3039496661 created "2020-07-10" @default.
• W3039496661 creator A5001949646 @default.
• W3039496661 creator A5004512844 @default.
• W3039496661 creator A5071464961 @default.
• W3039496661 creator A5075165262 @default.
• W3039496661 creator A5075222968 @default.
• W3039496661 creator A5087414455 @default.
• W3039496661 date "2020-07-04" @default.
• W3039496661 modified "2023-10-01" @default.
• W3039496661 title "Activity of Ailanthus altissima (Mill.) Swingle Extract as a Potential Bioherbicide for Sustainable Weed Management in Horticulture" @default.
• W3039496661 cites W108128063 @default.
• W3039496661 cites W1243428121 @default.
• W3039496661 cites W1550548196 @default.
• W3039496661 cites W1601263276 @default.
• W3039496661 cites W1698165610 @default.
• W3039496661 cites W1968435015 @default.
• W3039496661 cites W1970822512 @default.
• W3039496661 cites W1971591134 @default.
• W3039496661 cites W1993762495 @default.
• W3039496661 cites W2003294011 @default.
• W3039496661 cites W2012535564 @default.
• W3039496661 cites W2027674360 @default.
• W3039496661 cites W2029892557 @default.
• W3039496661 cites W2030753727 @default.
• W3039496661 cites W2032792864 @default.
• W3039496661 cites W2034919237 @default.
• W3039496661 cites W2038944521 @default.
• W3039496661 cites W2049764836 @default.
• W3039496661 cites W2054680813 @default.
• W3039496661 cites W2054998526 @default.
• W3039496661 cites W2065909757 @default.
• W3039496661 cites W2068558725 @default.
• W3039496661 cites W2082327767 @default.
• W3039496661 cites W2087010847 @default.
• W3039496661 cites W2090725430 @default.
• W3039496661 cites W2091088665 @default.
• W3039496661 cites W2101831798 @default.
• W3039496661 cites W2102835983 @default.
• W3039496661 cites W2174546655 @default.
• W3039496661 cites W2302347954 @default.
• W3039496661 cites W2329811166 @default.
• W3039496661 cites W2557279749 @default.
• W3039496661 cites W2738793818 @default.
• W3039496661 cites W2751264570 @default.
• W3039496661 cites W2770175704 @default.
• W3039496661 cites W2772496601 @default.
• W3039496661 cites W2786447064 @default.
• W3039496661 cites W2805006617 @default.
• W3039496661 cites W2896476817 @default.
• W3039496661 cites W2899096751 @default.
• W3039496661 cites W2899662731 @default.
• W3039496661 cites W2960251875 @default.
• W3039496661 cites W2967329646 @default.
• W3039496661 cites W2975986375 @default.
• W3039496661 cites W4239181702 @default.
• W3039496661 cites W587486589 @default.
• W3039496661 cites W2297363639 @default.
• W3039496661 doi "https://doi.org/10.3390/agronomy10070965" @default.
• W3039496661 hasPublicationYear "2020" @default.
• W3039496661 type Work @default.
• W3039496661 sameAs 3039496661 @default.
• W3039496661 citedByCount "17" @default.
• W3039496661 countsByYear W30394966612020 @default.
• W3039496661 countsByYear W30394966612021 @default.
• W3039496661 countsByYear W30394966612022 @default.
• W3039496661 countsByYear W30394966612023 @default.
• W3039496661 crossrefType "journal-article" @default.
• W3039496661 hasAuthorship W3039496661A5001949646 @default.
• W3039496661 hasAuthorship W3039496661A5004512844 @default.
• W3039496661 hasAuthorship W3039496661A5071464961 @default.
• W3039496661 hasAuthorship W3039496661A5075165262 @default.
• W3039496661 hasAuthorship W3039496661A5075222968 @default.
• W3039496661 hasAuthorship W3039496661A5087414455 @default.
• W3039496661 hasBestOaLocation W30394966611 @default.
• W3039496661 hasConcept C100701293 @default.
• W3039496661 hasConcept C144027150 @default.
• W3039496661 hasConcept C147273371 @default.
• W3039496661 hasConcept C2775891814 @default.
• W3039496661 hasConcept C2775997218 @default.
• W3039496661 hasConcept C2777832614 @default.
• W3039496661 hasConcept C2780416096 @default.
• W3039496661 hasConcept C2780858201 @default.
• W3039496661 hasConcept C2908613562 @default.
• W3039496661 hasConcept C59822182 @default.
• W3039496661 hasConcept C6557445 @default.
• W3039496661 hasConcept C86803240 @default.
• W3039496661 hasConceptScore W3039496661C100701293 @default.
• W3039496661 hasConceptScore W3039496661C144027150 @default.
• W3039496661 hasConceptScore W3039496661C147273371 @default.
• W3039496661 hasConceptScore W3039496661C2775891814 @default.
• W3039496661 hasConceptScore W3039496661C2775997218 @default.
• W3039496661 hasConceptScore W3039496661C2777832614 @default.
• W3039496661 hasConceptScore W3039496661C2780416096 @default.
• W3039496661 hasConceptScore W3039496661C2780858201 @default.
• W3039496661 hasConceptScore W3039496661C2908613562 @default.
• W3039496661 hasConceptScore W3039496661C59822182 @default.
• W3039496661 hasConceptScore W3039496661C6557445 @default.

• next