Table 2.
Review table of individual plants in polyherbal formulations against bacterial and fungal pathogens.
| Plant name/ Part used | Pathogen | Concentration (mg/ml) | Inhibition zone (mm) | MIC (mg/ml) | MBC (mg/ml) | Compounds | References |
|---|---|---|---|---|---|---|---|
| A. aspera Seeds | E. coli | 0.25–25 | 5–20 | 1.024 | NA | Alkaloids, tannins, saponins, glycosides and flavonoids | (Abi Beaulah et al., 2011, BK et al., 2013, Kaveti et al., 2013, Srinivasulu et al., 2016, Talreja et al., 2017 |
| K. pneumoniae | 0.25–1 | 11.2–20 | 1.024 | ||||
| S. flexneri | 0.25–1 | 10.1–13.8 | NA | ||||
| P. vulgaris | 0.25–1 | 8.8–25 | |||||
| P. aeruginosa | 0.25–1 | 12–20 | |||||
| S. aureus | 0.25–25 | 1–13.7 | |||||
| S. typhi | NA | ||||||
| P. mirabilis | |||||||
| V. cholerae | |||||||
| A. nigar | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| B. monosperma Seeds | S. typhi | 50 | 7 | NA | NA | Polyphenols, glycosides, quinines, anthracyanosides, flavonic glycosides, coumarins | (Maharjan et al., 2011) |
| E. coli | NA | ||||||
| S. flexneri | |||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| V. cholerae | |||||||
| P. aeruginosa | |||||||
| K. pneumoniae | |||||||
| S. aureus | |||||||
| A. nigar | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| C. colocynthis Fruit | A. nigar | 15–100 | 5–23 | 1–3.12 | 6.25 | α-Dglucopyranoside, O-α-D-glucopyranosyl, phthalic acid and y-tocopherol. Alkaloid ,Tannins, Saponins , Flavonoids Unsaturated sterols and terpens, Sterol and steroid Terpenoids and Cardiac glycosides, Cucurbitacin |
(Ali et al., 2013, Doss et al., 2011, Eidi et al., 2015, Gurudeeban et al., 2010, Hameed et al., 2020, Hany and Neelam, 2020, Hussain et al., 2011, Idan et al., 2015, Nora et al., 2015, Thangavel and Ramasamy, 2019) |
| A. fumigatus | 15–100 | 6–19 | 1.56 | 3.12 | |||
| E. coli | 40–60 | 3–16 | 0.5–13.9 | NA | |||
| P. mirabilis | 0.3 | 2–10 | 1 | ||||
| P. vulgaris | 0.3 | 12.3 | 1 | ||||
| S. aureus | 25–100 | 2.9–22 | 0.25–10.8 | ||||
| P. aeruginosa | 25–100 | 4.9–19 | 0.5–13.9 | ||||
| K. pneumoniae | 25–100 | 9.4–19 | 1–13.9 | ||||
| S. typhi | NA | 10 | 1 | ||||
| F. oxysporum | 25–100 | 10–15 | NA | ||||
| S. flexneri | NA | 5 | |||||
| V. cholerae | NA | ||||||
| Rhizopus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| C. cyminum Seeds | E. coli | 0.5–250 | 2–31 | 0.12–20 | 0.25–40 | Gallic acid, tannin, Coumarin, terpenoids, 2-methyl-4isopropyliden-cyclopentan-1-al, 1-methyl-4-isopropyl-3-cyclohexen-1-ol, monoterpene, 4-isopropylcyclohex-1, 3-dien-1-yl) methanol, 4-isopropyl-1-cyclohexen-1-carbaldehyde, (3,4-dimethyl-2-oxo-cyclopenten-1-yl) p-cymene, 8a-methyl octahydro-2(1H)- naphthalenone, p-cymen-7-ol, o-cymen-5-ol, p-cymen-3-ol,6-allyl-4,5 dimethoxy-1,3 benzodioxole 3-isopropyl phenol, | (Akbar et al., 2019, Allaithy, 2017, Chaudhary et al., 2014, Dua et al., 2013b, Mostafa et al., 2018, Saee et al., 2016, Saeidi et al., 2015, Shahid et al., 2013, Sheikh et al., 2010, Shete and Chitanand, 2014, Singh and Tripathi, 2018, Srivastava et al., 2016) |
| P. aeruginosa | 2–33.33 | 10–25 | 0.25–6.25 | 0.5 | |||
| S. typhi | 0.5–250 | 8–35 | 40 | 60 | |||
| K. pneumoniae | 0.5–250 | 8–22 | 0.12–40 | 0.25–60 | |||
| S. aureus | 0.5–250 | 9–36 | 0.12–40 | 0.25–60 | |||
| P. mirabilis | 50–100 | 11.5–12 | NA | ||||
| V. cholerae | 0.5 | 8–17 | |||||
| A. nigar | 0.5 | 17 | |||||
| A. fumigatus | 0.5 | 15 | |||||
| P. vulgaris | NA | ||||||
| S. flexneri | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| C. fistula Seeds, seed cover | E. coli | 100 | 4.83–16 | 50 | NA | 2,4-Dihydroxy-2,5-dimethyl-39(2H)-furan-3-one, á-D-Glucopyranoside , O-á-D-glucopyranosyl-(1.fwdarw.3)-ß-D-fruc, d-Mannose, 5,7-Dodecadiyn - 1,12- diol, 3- Tr ifluor oacetoxypentadecane, 3-Trifluoroacetoxypenta decane, Pterin-6-carboxylic acid, Imidazole-4-carboxylic acid ,2-fluoro-1-methoxymethyl-,ethyl ester, D-Carvone, | (Gupta et al., 2015, Kadhim et al., 2016, Subramanion et al., 2010) |
| S. typhi | 100 | 4.15–25 | 3.12 | ||||
| S. aureus | 25–100 | 5–18 | 12.5 | ||||
| S. flexneri | 100 | 9 | NA | ||||
| P. mirabilis | 100 | 6 | |||||
| P. aeruginosa | 100 | 5.73 | |||||
| K. pneumoniae | 100 | 5 | |||||
| A. nigar | 100 | 5.8 | |||||
| F. oxysporum | 100 | 5 | |||||
| A. fumigatus | 100 | 6 | |||||
| Trichoderma | 100 | 5 | |||||
| P. vulgaris | NA | ||||||
| V. cholerae | |||||||
| Rhizopus | |||||||
| F. graminearum | |||||||
| C. limon Fruit juice/extract | E. coli | 0.2–1 | 11–19 | 0.5–50 | 0.1–1 | Alkaloids, flavonoids, phenols, quinines, terpenoids and carbohydrate, cyanogenetic, cardic and steroidal glycosides, tannins, saponins, and water-soluble vitamins | (Singh et al., 2020b) (Bhuiyan et al., 2019, Ekawati and Darmanto, 2019, Hindi and Chabuck, 2013, Kumari et al., 2014, Liya and Siddique, 2018, Oikeh et al., 2016, Okeke et al., 2015, Sah et al., 2011, Shakya et al., 2019) |
| S. aureus | 0.2 | 14–26 | 0.025–25 | 0.05 | |||
| K. pneumoniae | 0.2 | 18–30 | 0.0035 | 0.05 | |||
| S. typhi | 0.1–1 | 6–30 | 0.025–12.5 | 0.05 | |||
| P. aeruginosa | 0.2 | 10–19 | 0.0125 | 0.05 | |||
| A. nigar | 0.2 | 4–12 | 0.05 | 0.1 | |||
| P. vulgaris | 0.2 | 17–20 | 0.001–6.5 | NA | |||
| S. flexneri | 100-1000 ug/disc | 9-15 | NA | ||||
| V. cholerae | NA | ||||||
| P. mirabilis | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| C. nucifera Fruit | E. coli | 0.5–1.5 | 0–10 | NA | NA | Phenols, flavonoids, alkaloids, tannins and saponins | (Chakraborty and Mitra, 2008, Igwe and Ugwunnaji, 2016) |
| S. aureus | 0.5–1.5 | 8–15 | |||||
| P. aeruginosa | NA | 16 | |||||
| A. nigar | 12 | ||||||
| V. cholerae | NA | ||||||
| S. flexneri | |||||||
| P. mirabilis | |||||||
| K. pneumoniae | |||||||
| P. vulgaris | |||||||
| S. typhi | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| C. sinensis leaves | P. aeruginosa | 0.1–200 | 10–19 | 5 | >5 | Phenol, flavonoids, catechin, alkaloids, tannins and alkaloid | (Agbom et al., 2020, Archana and Abraham, 2011, Bashir et al., 2014, Chakrabort and Chakrabort, 2010, Dzotam and Kuete, 2017, Farooqui et al., 2015, Fazal and Rauf, 2015, Latteef, 2016, Mehta et al., 2016, Rajeswari, 2015, Roy et al., 2018, Vasudeo and Sonika, 2009) |
| E. coli | 0.1–200 | 3.6–32 | 3.25–100 | >5 | |||
| S. flexneri | 3–48 | 2–26 | 2.5–12 | >5 | |||
| S. aureus | 0.1–200 | 0.8–20 | 0.1–0.39 | 1.56 | |||
| S. typhi | 3–48 | 2.3–28.4 | 12 | 60 | |||
| V. cholerae | 3–48 | 1.6–30.1 | 6 | NA | |||
| K. pneumoniae | NA | 22 | 0.512 | ||||
| P. mirabilis | 25 | NA | |||||
| A. nigar | 5 | ||||||
| F. oxysporum | 6 | ||||||
| A. fumigatus | 30 | ||||||
| P. vulgaris | NA | ||||||
| Rhizopus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| C. zedoaria Rhizome | V. cholerae | 0.5 | 0 | NA | NA | (Das and Rahman, 2012, Shahriar, 2010) 26] | |
| E. coli | 0.5–40 | 9–18 | |||||
| S. typhi | 0.5 | 16 | |||||
| P. aeruginosa | 0.5–40 | 5–13 | |||||
| K. pneumoniae | 0.5 | 0 | |||||
| S. aureus | 0.5–40 | 16 | |||||
| A. nigar | 0.5–40 | 11–14 | |||||
| A. fumigatus | 40 | 12 | |||||
| Trichoderma | 40 | 5 | |||||
| S. flexneri | NA | ||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| F. graminearum | |||||||
| C. zeylanicum Bark | S. aureus | 10–150 | 11–14 | 25 | NA | NA | (Aneja et al., 2009, Saliem and AbedSalih, 2018, Singh et al., 2020a, Vyas et al., 2015) |
| E. coli | 0.1–10 | 4–12 | NA | ||||
| P. aeruginosa | 10–150 | 9–14 | |||||
| K. pneumoniae | 1–2 | 9–10 | |||||
| A. nigar | 10 | 13 | |||||
| V. cholerae | NA | ||||||
| S. flexneri | |||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| S. typhi | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| E. cardamomum Fruit/seeds | S. aureus | 100 | 6–38 | 2–50 | 2.5– >50 | terpenoids flavonoids and glycosides | (Al-Judaibi et al., 2014, Aneja and Joshi, 2009, Bano et al., 2016, Islam et al., 2010, Kaushik et al., 2010, Singh et al., 2008) |
| S. typhi | 100 | 6.5–22 | 25 | 50 | |||
| P. aeruginosa | 100 | 8.5–16 | 49 | 75 | |||
| K. pneumoniae | 100 | 14 | 50 | 50 | |||
| E. coli | 50 | 8.5-16.5 | NA | ||||
| V. cholerae | NA | ||||||
| S. flexneri | |||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| A. nigar | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| E. jambolana Seeds | S. aureus | 0.050–1 | 6–25 | 0.125 | 0.125 | NA | (Chandrasekaran and Venkatesalu, 2004, Mehreen et al., 2016, Ogato et al., 2015, Raju et al., 2011, Saha et al., 2013a) |
| E. coli | 0.050–1 | 4–15 | 0.250 | 0.5 | |||
| S. typhi | 0.050–1 | 5–18 | 0.125 | 0.5 | |||
| P. aeruginosa | 0.050–1 | 5–23 | 0.250 | 0.5 | |||
| K. pneumoniae | 0.050–1 | 4 | 0.25 | 0.5 | |||
| A. nigar | 0.050–1 | 6–11 | 0.0625 | 0.125 | |||
| Rhizopus | 0.050–1 | 10 | 0.0625 | 0.125 | |||
| A. fumigatus | 0.050–1 | 12 | 0.0625 | 0.250 | |||
| S. flexneri | 25–100 | 20–26 | NA | ||||
| V. cholerae | NA | ||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| F. oxysporum | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| F. asafetida Root/ Gum resine | S. aureus | 1–5 | 5–20 | 0.5 | NA | Alakaloids, tannins, glycosoids, flavonoids,saponins | (Patil et al., 2015, Sharma et al., 2016, Shrivastava et al., 2012) |
| E. coli | 1–5 | 16–19 | 1 | ||||
| K. pneumoniae | 2–4 | 14–17 | 1 | ||||
| A. nigar | 2–4 | 14–17 | 1 | ||||
| P. aeruginosa | 1–5 | 13.9 | NA | ||||
| S. flexneri | NA | ||||||
| V. cholerae | |||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| S. typhi | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| F. vulgare Seeds | S. aureus | 0.05–0.4 | 3.33–20 | 0.0125–0.5 | NA | terpenoids, tannins, steroids, alkaloids and glycosides, gallic acid, catechin, quercetin | (Agarwal et al., 2017, Al-Hadid, 2017, Al Akeel et al., 2014, Allaithy, 2017, Arman et al., 2019, Beyazen et al., 2017, Chang et al., 2016, Dua et al., 2013a, Jayalakshmi et al., 2011, Salami et al., 2016, Shahid et al., 2013) |
| E. coli | 0.4–100 | 2–19 | 0.015–0.25 | ||||
| S. typhi | 1–15 | 11–25 | 0.015–0.5 | ||||
| P. aeruginosa | 0.4–100 | 1.33,14–19 | >33.33 | ||||
| V. cholerae | 0.4 | 4.33 | NA | ||||
| P. mirabilis | 50-100 | 10.5-16 | |||||
| P. vulgaris | 0.0044 | 12 | |||||
| K. pneumoniae | 10-15 | 12-15 | |||||
| A. nigar | NA | 15.6 | |||||
| S. flexneri | NA | ||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| M. piperita Leaves | E. coli | 0.21 | 0.49 | (Ali et al., Elansary et al., 2020) | |||
| P. aeruginosa | 0.16 | 0.47 | |||||
| S. aureus | 0.17 | 0.37 | |||||
| A. nigar | 19 | ||||||
| A. fumigatus | 15 | ||||||
| V. cholerae | NA | ||||||
| S. flexneri | |||||||
| S. typhi | |||||||
| K. pneumoniae | |||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| O. basilicum Seeds | S. aureus | 25–100 | 5–11 | 0.125 | NA | NA | (Adigüzel et al., 2005, Ahmad et al., 2016, Gajendiran et al., 2016, Kadhim et al., 2016, Saha et al., 2013b) |
| E. coli | 25–100 | 11–12 | 0.25 | ||||
| V. cholerae | 300 µg/disc | 10 | NA | ||||
| P. mirabilis | 50–75 | 4–12 | |||||
| S. typhi | 50–75 | 9–10 | |||||
| P. aeruginosa | 75 | 16 | |||||
| K. pneumoniae | 50–75 | 4–13 | |||||
| A. nigar | 1–6 | 63–100% | |||||
| Rhizopus | 1–6 | 56–100% | |||||
| A. fumigatus | 1–6 | 58–100% | |||||
| S. flexneri | NA | ||||||
| P. vulgaris | |||||||
| F. oxysporum | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| P. granatum Fruit cover | S. aureus | 4–100 | 7–29 | 0.1–50 | >10–60 | steroids, triterpenoides, alkaloids, flavonoids, saponins, tannins and carbohydrates, Anthraquinones | (Al-Zoreky, 2009, Ali, 2017, Dahham et al., 2010) (Abdollahzadeh et al., 2011, Kesur et al., 2016, Mathabe et al., 2006, Raju et al., 2011) (Abdu et al., 2020, Alemu et al., 2017, Barathikannan et al., 2016, Bereksi et al., 2018, Rajeswari, 2015, Rashid et al., Sajjad et al., 2015, Salmen et al., 2016, Shafiq et al., 2013, Shahbazi, 2017, Ullah et al., 2012) |
| E. coli | 0.03–0.05 | 13–27 | 1–12.5 | >10–32 | |||
| S. typhi | 14–24 | 1–13–37 | 25 | >10–32 | |||
| P. aeruginosa | 1–100 | 8–26 | 12.5 | NA | |||
| K. pneumoniae | 0.125–1 | 7-18 | 2 | ||||
| P. mirabilis | 0.03–0.05 | 12-20 | NA | ||||
| P. vulgaris | NA | 6 | 12.5 | ||||
| S. flexneri | 16-25 | NA | |||||
| A. nigar | 7-23 | ||||||
| F. oxysporum | 13 | ||||||
| V. cholerae | |||||||
| Rhizopus | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| P. nigrum Seeds, fruit | E. coli | 1–2 | 4-11-11.8 | NA | (Sharma et al., 2016) Antibacterial activity for fruit peel Methanol extract of Punica granatumLinn. (Punicaceae) Afzan Mahmad | ||
| P. aeruginosa | 1–200 | 10-16 | |||||
| K. pneumoniae | 1–2 | 10-10.9 | |||||
| S. aureus | 1–200 | 4-10.3-16 | |||||
| V. cholerae | NA | ||||||
| S. flexneri | |||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| S. typhi | |||||||
| A. nigar | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| P. ovate Fruit, husk | E. coli | 50–400 | 7–10 | NA | saponin, tannin, flavonoids, alkaloids, steroids | (Motamedi et al., 2010) | |
| P. mirabilis | 50–400 | 0 | |||||
| P. vulgaris | 5–50 | 8.5–12 | |||||
| S. typhi | 50–400 | 0 | |||||
| P. aeruginosa | 400 | 7 | |||||
| K. pneumoniae | 400 | 7 | |||||
| S. aureus | 5-400 | 9-18 | 20 | >200 | |||
| V. cholerae | NA | ||||||
| S. flexneri | |||||||
| A. nigar | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| R. indica Petal extract/ flower | S. aureus | 200 | 17–22 | 4.5 | NA | Phenolic compounds, flavonoids, tannins, alkaloids | (Mishra et al., 2011, Pathak et al., 2019, Rikhi et al., 2015, Safdar and Malik, Sowmya et al., 2017) |
| E. coli | 200 | 12–15 | 3.7 | ||||
| P. aeruginosa | 200 | 18–21 | 4.5 | ||||
| S. typhi | 20 | 6–10 | NA | ||||
| K. pneumoniae | NA | 22 | |||||
| V. cholerae | 10–17 | ||||||
| S. flexneri | NA | ||||||
| P. mirabilis | |||||||
| P. vulgaris | |||||||
| A. nigar | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| S. aromaticum Buds | V. cholerae | NA | NA | 0.025 | NA | alkaloid, terpenoids, flavonoids, steroid, saponin Anthraquinones, and tannin, phenolic compounds | (Abd El Azim et al., 2014, Aneja and Joshi, 2010, Dua et al., 2014, Ghulam and Ahmad, 2014, Mehrotra and Srivastava, 2010, Okmen et al., 2018, Pandey and Singh, 2011, Prajapati et al., 2018, Sharma et al., 2016, Vizhi et al., 2016, Wankhede, 2015) |
| E. coli | 1–500 | 5–24 | 3.12–125 | 12.5–125 | |||
| S. flexneri | 25–500 | 7–19 | 6.25–125 | 50–125 | |||
| P. vulgaris | 250–500 | 7–11 | 31.25 | 62.5 | |||
| S. typhi | 25–500 | 10–16 | 3.9–6.25 | 7.8–25 | |||
| P. aeruginosa | 1–100 | 10–30 | 1.95–12.5 | 50 | |||
| K. pneumoniae | 25–500 | 7.5–15 | 6–7.8 | 15.6–25 | |||
| S. aureus | 1–350 | 5–28 | 0.98–3.25 | 25 | |||
| A. nigar | NA | 4-14 | NA | ||||
| F. oxysporum | 9 | ||||||
| Trichoderma | 24 | ||||||
| P. mirabilis | NA | ||||||
| A. fumigatus | |||||||
| Rhizopus | |||||||
| F. graminearum | |||||||
| T. chebula Rhizome | V. cholerae | 10 | 15 | 0.25 | 1.5 | Phenolic compounds, flavonoids, Alkaloid, Tannin, Steroid, Cardiac glycosides, terpenoids | (Bajpai et al., 2010, Baliah and Astalakshmi, 2014, Jayalakshmi et al., 2011, Monisha et al., 2013, Mostafa et al., 2011, Rai and Joshi, 2009, Sharma et al., 2012, Singh et al., 2012, Zearah, 2014) |
| E. coli | 10–500 | 14–30 | 50–100 | NA | |||
| S. aureus | 1–500 | 22–35 | 3.12–25 | ||||
| P. mirabilis | 10 | 20.6 | 12.5 | ||||
| P. aeruginosa | 125–500 | 18–30 | 12.5 | ||||
| F. oxysporum | 1.5 | 23 | 0.5 | ||||
| S. flexneri | 10 | 12 | NA | ||||
| S. typhi | 10 | 16–25 | |||||
| K. pneumoniae | 125–500 | 17–30 | |||||
| P. vulgaris | NA | ||||||
| A. fumigatus | |||||||
| A. nigar | |||||||
| Rhizopus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| T. ammi Seeds | E. coli | NA | 9–20 | 1–12.5 | 25 | NA | (Bashyal and Guha, 2018, Hassan et al., 2016, Sharma et al., 2018, Sharma and Shrivastava, Shokrian et al., 2016) |
| S. typhi | 9–12 | 1 | 25 | ||||
| S. aureus | 9–20 | 1 | 50 | ||||
| P. aeruginosa | 0.025 | 8–21 | 1 | NA | |||
| A. nigar | NA | 15 | NA | ||||
| S. flexneri | NA | ||||||
| P. vulgaris | |||||||
| P. mirabilis | |||||||
| V. cholerae | |||||||
| K. pneumoniae | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| W. coagulance Fruit | E. coli | 15 | 10–21 | NA | terpenoids, flavonoids and tannin | (Peerzade et al., 2018, Shahid et al., 2013, Sudhanshu et al., 2012) | |
| S. flexneri | 50–250 | 8–13 | |||||
| P. vulgaris | 50–250 | 0–16 | |||||
| S. typhi | 1–250 | 7–16 | |||||
| P. aeruginosa | 1–250 | 13–20 | |||||
| K. pneumoniae | 1–250 | 10–22 | |||||
| S. aureus | 1–250 | 11–19 | |||||
| A. nigar | 50–250. | 7–11 | |||||
| A. fumigatus | 0.025 | 29 | |||||
| V. cholerae | NA | ||||||
| P. mirabilis | |||||||
| Rhizopus | |||||||
| F. oxysporum | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||
| Z. officinale Rhizome | E. coli | 0.025–80 | 2.9–22 | 3.5 | 40 | alkaloid, phlobotannins, flavanoids, glycosides, saponins, tannin and terpenoids. zingiberene, β- bisabolene , α-farnesne, β-sesquiphellandrene ,α-curcumene and gingerol and shogaol | (Agrawal et al., 2018, Azadpour et al., 2016, Bashir et al., 2015, Bhargava et al., 2012, El-Mesallamy et al., 2017, Hasan et al., 2012, Iotsor et al., 2019, Kaushik and Goyal, 2011, Njobdi et al., 2018, Riaz et al., 2015, Sunilson et al., 2009, Ushimaru et al., 2007, Yadufashije et al., 2020, Yassen and Ibrahim, 2016, Yusuf et al., 2018) |
| S. aureus | 0.025–50 | 3.75–31 | 0.052–1.75 | 0.1 | |||
| P. aeruginosa | 0.025–0.1 | 4–26 | 0.416–1.75 | 0.416 | |||
| P. mirabilis | 3.1–50 | 1.9–12 | NA | ||||
| S. typhi | 0.025–0.1 | 6–21 | |||||
| S. flexneri | 20 | 11 | |||||
| K. pneumoniae | 0.025-50 | 4.93-29 | |||||
| A. nigar | 3 | 11–25 | |||||
| F. oxysporum | 3 | 29 | |||||
| V. cholerae | NA | ||||||
| P. vulgaris | |||||||
| Rhizopus | |||||||
| A. fumigatus | |||||||
| Trichoderma | |||||||
| F. graminearum | |||||||