Full Length Research Paper
References
Abd-ElGawad A, El Gendy AE, El-Amier Y, Gaara A, Omer E, Al-Rowaily S, Assaeed A, Al-Rashed S, Elshamy A (2020). Essential oil of Bassia muricata: Chemical characterization, antioxidant activity, and allelopathic effect on the weed Chenopodium murale. Saudi journal of biological sciences 27(7):1900-1906. ISSN 1319-562X, |
|
Adrian-Romero M, Blunden G, Patel AV, Armstrong N, Meléndez P, Cuervo AC (2007). Betaines and N-methylprolines from Venezuelan plants. Natural Product Communications, 2(8), 1934578X0700200815. |
|
Al-Mudaris MA (1998).Notes on various parameters recording the speed of seed germination. Der Tropenlandwirt-Journal of Agriculture in the Tropics and Subtropics 99(2):147-154. |
|
Alves HM, Arndt VH, Ollis WD, Eyton WB, Gottlieb OR, Magalhães MT (1966). Triterpenoids isolated from Machaerium incorruptibile. Phytochemistry 5(6):1327-1330. |
|
Arora K, Batish DR, Singh HP, Kohli RK (2015). Allelopathic potential of the essential oil of wild marigold (Tagetes minuta L.) against some invasive weeds. Journal of Environmental and Agricultural Sciences 3:56-60. |
|
Bailey KL (2014) The bioherbicide approach to weed control using plant pathogens. In:Abrol, D.P., Ed., Integrated Pest Management: Current Concepts and Ecological Perspectives, Elsevier pp. 245-266. |
|
Bastos MNC (1987). Contribuição ao estudo sistemático de algumas espécies do gênero Machaerium Persoon (Leguminoase Papilionoideade) ocorrentes na Amazônia brasileira. Boletim do Museu Paraense Emílio Goeldi 3(2):183-278. |
|
Braga A, Gottlieb OR, Eyton WB (1968). Constituents of Machaerium villosum. Anais da Academia Brasileira de Ciências 40 (2):147-150. |
|
Belter PR, Cahill JF (2015) Disentangling root system responses to neighbours: Identification of novel root behavioural strategies. AoB Plants 7:1-12. |
|
Bento CC, Tangerina MMP, Zanatta AC, Sartori ALB, Franco DM, Hiruma-Lima CA (2018). Allelopathic activity of Machaerium eriocarpum Benth. Natural Product Research 32:1-5. |
|
Berleth T, Scarpella E, Prusinkiewicz P (2007). Towards the systems biology of auxin-transport mediated patterning. Trends in Plant Science 12 (4):151-159. |
|
Branco A, Pizzolatti MG (2002). CGAR e CGAR-EM na análise dos constituintes químicos isolados do extrato hexanico de Sebastiania argutidens (Euphorbiaceae). Química Nova 25(1):15-19. |
|
Chaturvedi PK, Bhui K, Shukla Y (2008). Lupeol: Connotations for chemoprevention. Cancer Letters 263(1):1-13. |
|
Chou CH, Waller GR (1980). Possible allelopathic constituents of Coffea arabica. Jourmal of Chemical Ecology 6(3):643-654. |
|
De Martino L, Mencherini T, Mancini E, Aquino RP, De Almeida LF, De Feo V (2012). In vitro phytotoxicity and antioxidant activity of selected flavonoids. International Journal of Molecular Sciences 13(5):5406-5419. |
|
De Oliveira MN, Mercadante-Simões MO, Ribeiro LM, Lopes PSN, Gusmão E, Dias BAS (2005). Efeitos alelopáticos de seis espécies arbóreas da família Fabaceae. Unimontes científica Montes Claros 7(2):121-128. |
|
Duke SO, Dayan FE, Romagni JG, Rimando AM (2000). Natural products as sources of herbicides: current status and future trends. Weed Research (Oxford) 40(1):99-111. |
|
ElSohly HN, Joshi AS, Nimrod AC (1999). Antigiardial isoflavones from Machaerium aristulatum. Planta Medica 65(5):490. |
|
Fernández-Aparicio M, Masi M, Cimmino A, Vilariño S, Evidente A (2021) Allelopathic Effect of Quercetin, a Flavonoid from Fagopyrum esculentum Roots in the Radicle Growth of Phelipanche ramosa: Quercetin Natural and Semisynthetic Analogues Were Used for a Structure-Activity Relationship Investigation. Plants 10:543. |
|
Gregson M, Kurosawa K, Ollis WD, Redman BT, Roberts RJ, Sutherland IO,Dietrichs HH (1968). The natural occurrence of cis-and trans-cinnamylphenols. Journal Chemical Communication 22:1390-1392. |
|
Hamid K, Alqahtani A, Kim MS, Cho JL, Cui PH, Li CG, Groundwater PW, Li GQ (2015) Tetracyclic triterpenoids in herbal medicines and their activities in diabetes and its complications. Current Topics in Medicinal Chemistry 15(23):2406-2430. |
|
Hoagland RE, Williams RD (2004) Allelopathy: chemistry and mode of action of allelochemicals, in: Macias AF, Galindo, JCG, Molinillo JMG, Cutler HG (Ed.). CRC Press, Boca Raton 372 p. |
|
Ignoato MC, Fabrão RM, Schuquel ITA, Botelho MFP, Bannwart G, Pomini AM, Arruda LLM, Bersani-Amado CA, Santin SMO (2013). Chemical constituents of Machaerium hirtum Vell. (Fabaceae) leaves and branches and its anti-inflammatory activity evaluation. Natural Product Research 27(17):1556-1561. |
|
Jacob CE, Tozzi E, Willenborg CJ (2017). Neighbour presence, not identity, influences root and shoot allocation in pea. PLoS One 12 (3): 1-12. |
|
Jácome, RLRP, de Oliveira AB, Raslan DS, Wagner H (2004). Estudo químico e perfil cromatográfico das cascas de Aspidosperma parvifolium A. DC. ("paupereira"). Química Nova 27(6):897-900. |
|
Jose CM, Torres LMB, Torres MAMG, Shirasuna RT, Farias DA, dos Santos NA, Grombone-Guaratini MT (2016). Phytotoxic effects of phenolic acids from Merostachys riedeliana, a native and overabundant Brazilian bamboo. Chemoecology 26(6):235-246. |
|
Kuk Y-I, Burgos NR, Talbert RE (2001). Evaluation of rice by-products for weed control. Weed Science 49(1):141-149. |
|
Kurosawa K, Ollis WD, Sutherland IO, Gottlieb OR, De Oliveira AB (1978). Mucronustyrene, mucronulastyrene, and villostyrene, cinnamylphenols from Machaerium mucronulatumand and M. Villosum. Phytochemistry 17(8):1389-1394. |
|
Kurosawa K, Ollis WD, Sutherland IO, Gottlieb OR, de Oliveira AB (1978). Mucronulatol, mucroquinone and mucronucarpan, isoflavonoids from Machaerium mucronulatum and M. villosum. Phytochemistry 17(8):1405-1411. |
|
Kurosawa K, Ollis WD, Redman BT, Sutherland IO,Gottlieb OR (1978). Vestitol and vesticarpan, isoflavonoids from Machaerium vestitum. Phytochemistry 17(8):1413-1415. |
|
Luz SM, Souza-Filho APS, Guilohn GMSP, Vilhena KSS (2010). Atividade alelopática de substâncias químicas isoladas da Acacia mangium e suas variações em função do PH. Planta Daninha 28(3):479-487. |
|
Magalhães CG, Ferrari FC, Guimarâes DA, Silva GD, Duarte LP, Figueiredo RC (2011). Maytenus salicifolia: triterpenes isolated from stems and antioxidant property of extracts from aerial parts. Revista Brasileira de Farmacognosia 21(3):415-419. |
|
Martinez V, Nieves-Cordones M, Lopez-Delacalle M, Rodenas R, Mestre TC, Garcia-Sanchez F, Rubio F, Nortes PA, Mittler R, Rivero RM (2018). Tolerance to stress combination in tomato plants: New insights in the protective role of melatonin. Molecules 23(3):1-20. |
|
Mo S, Dong L, Hurst WJ, van Breemen RB (2013). Quantitative analysis of phytosterols in edible oils using APCI liquid chromatography-tandem mass spectrometry. Lipids 48(9):949-956. |
|
Nebo L, Varela RM, Molinillo JMG, Severino VGP, Sarria ALF, Cazal CM, Fernandes MFG, Fernandes JB, Macías FA (2015). Phytotoxicity of triterpenes and limonoids from the Rutaceae and Meliaceae. 5α,6β,8α,12α-Tetrahydro-28-norisotoonafolin--a Potent Phytotoxin from Toona ciliata. Natural Product Communications 10(1):17-20. |
|
Oliveira AB, Gottlieb OR, Ollis WD (1968). Chemistry of brazilian Leguminosae. XVII. Constituents of Machaerium villosum. Anais da Academia Brasileira de Ciências 40(:147-150. |
|
Ollis WD, Redman BT, Roberts RJ, Sutherland IO, Gottlieb OR (1968). New neoflavanoids from Machaerium kuhlmannii and Machaerium nictitans and the recognition of a new neoflavanoid type, the neoflavenes. Chemical Communications (London) (22):1392-1393. |
|
Ollis WD, Sutherland IO, Alves HM, Gottlieb OR (1978). Duartin, an isoflavan from Machaerium opacum. Phytochemistry 17(8):1401-1403. |
|
Plant List - A Working List of all Plant Species (2020). Version 1.1 |
|
Polido CA, Sartori ÂLB (2011). Machaerium (Leguminosae, Papilionoideae, Dalbergieae) nos estados de Mato Grosso e Mato Grosso do Sul, Brasil. Rodriguésia 62(1):107-122. |
|
Ramida Krumsri,Kato-Noguchi H, Poonpaiboonpipat T (2020). Allelopathic effect of Sphenoclea zeylanica Gaertn. on rice (Oryza sativa L.) germination and seedling growth. Australian Journal of Crop Science 14(9):1450-1455. ISSN:1835-2707 |
|
Ribani M, Grespan Bottoli CB, Collins CH, Fontes-Jardim ICS, Costa-Melo LF (2004). Validação em métodos cromatográficos e eletroforéticos. Química Nova 27(5):771-780. |
|
Santos ABD, Silva DHS, Bolzani VDS, Santos LÁ, Schmidt TM, Baffa O (2009). Antioxidant properties of plant extracts: an EPR and DFT comparative study of the reaction with DPPH, TEMPOL and spin trap DMPO. Journal of the Brazilian Chemical Society 20(8):1483-1492. |
|
Seo EK, Kim NC, Mi Q, Chai H, Wall ME, Wani MC, Navarro HA, Burgess JP, Graham JG, Cabieses F, Tan GT (2001). Macharistol, a new cytotoxic cinnamylphenol from the stems of Machaerium aristulatum. Journal of Natural Products 64(11):1483-1485. |
|
Suzuki LS, Zonetti PC, Ferrarese MLL, Ferrarese-Filho O (2008). Effects of ferulic acid on growth and lignification of conventional and glyphosate-resistant soybean. Allelopathy Journal 21(1):155-164. |
|
Tauseef A, Huma Q, Mater H, Mahnashi, FK, Nusrat P, Dawood A, Umara A, Salma B, Muhammad A, Saleh Ahmed A, Hussain AA (2021). Bioherbicidal ability and weed management of allelopathic methyl esters from Lantana camara, Saudi Journal of Biological Sciences 2021. |
|
TODERO I (2017). Desenvolvimento de um bioherbicida a partir de metabólitos de Phoma sp. para o manejo de plantas daninhas. Tese de mestrado em engenharia agrícola, Santa Maria, RS pp. 12-18. |
|
Wagner H, Bladt S (1996). Plant Drug Analysis: a thin layer chromatography atlas. Berlin, Springer 2:1-2. |
|
Wang C-M, Li T-C, Weng J-H, Jhan Y-L, Cho C-H (2014). The role of pentacyclic triterpenoids in the allelopathic effects of Alstonia scholaris. Journal of Chemical Ecology 40(1):90-98. |
|
Yamagushi MQ, Gusman GS, Vestena S (2011). Efeito alelopático de extratos aquosos de Eucalyptus globulus Labill. e de Casearia sylvestris Sw. sobre espécies cultivadas. Semina Ciências Agrarias 32(4):1361-1374. |
|
Yang S, Hu H, Hu T, Wang Q, Ye M, Luo J, Peng Y, Zhang R (2017). Chemical constituents of Cinnamomum septentrionale leaf litter and its allelopathic activity on the growth of maize (Zea mays). Natural Product Research 31(11):1314-1317. |
|
Zhu X, Skoneczny D, Weidenhamer JD, Mwendwa JM, Weston PA, Gurr GM, Callaway RM, Weston LA (2016) Identification and localization of bioactive naphthoquinones in the roots and rhizosphere of Paterson's curse (Echium plantagineum), a noxious invader. Journal of Experimental Botany 67(12):3777-3788. |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0