<i>Phytophthora</i> Diversity in Pennsylvania Nurseries and Greenhouses Inferred from Clinical Samples Collected over Four Decades by Cody Molnar, Ekaterina Nikolaeva, Seonghwan Kim, Tracey Olson, Devin Bily, Jung-Eun Kim, Seogchan Kang

“…Prominent pathogenic species such as <i>P. cactorum</i>, <i>P. cinnamomi</i>, <i>P. nicotianae</i>, <i>P. drechsleri</i>, <i>P. pini</i>, <i>P. plurivora</i>, and <i>P.…”
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New insights into municipal biowaste derived products as promoters of seed germination and potential antifungal compounds for sustainable agriculture by Ferdinando Fragalà, Ivana Castello, Ivana Puglisi, Elio Padoan, Andrea Baglieri, Enzo Montoneri, Alessandro Vitale

“…Conclusions The fungicidal potency of ADMBW BP OX was for the first time clearly demonstrated on multiple targets as Botrytis cinerea, Sclerotinia sclerotiorum, Monilia sp., Sclerotium rolfsii, and Phytophthora nicotianae, by calculating their relative EC50 and, when it was possible, also EC95 and MIC values. …”
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Halotolerant biofilm-producing rhizobacteria mitigate seawater-induced salt stress and promote growth of tomato by Md. Manjurul Haque, Md. Sanaullah Biswas, Md Khaled Mosharaf, Md. Amdadul Haque, Md. Shahidul Islam, Kamrun Nahar, Md. Mynul Islam, Habibul Bari Shozib, Md. Mariful Islam, Ferdous-E-Elahi

“…By sequencing, Glutamicibacter arilaitensis (ESK1, ESM4 and ESM7), G. nicotianae (ESK19, ESM8 and ESM16), Enterobacter ludwigii (ESK15, ESK17, ESM2 and ESM17), E. cloacae (ESM5 and ESM12), Exiguobacterium acetylicum (ESM24 and ESM25), Staphylococcus saprophyticus ESK6, Leclercia adecarboxylata ESK12, Pseudomonas poae ESK16, Bacillus subtilis ESM14, and P. putida ESM17 were identified. …”
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Biocontrol of Wheat Crown Rot Using <i>Bacillus halotolerans</i> QTH8 by Shen Li, Jianqiang Xu, Liming Fu, Guohui Xu, Xiaomin Lin, Junqing Qiao, Yanfei Xia

“…In addition, bacterial strain QTH8 also inhibited the mycelial growth of <i>Hainesia lythri</i>, <i>Pestalotiopsis</i> sp., <i>Botrytis cinerea</i>, <i>Curvularia lunata</i>, <i>Phyllosticta theaefolia</i>, <i>Fusarium graminearum</i>, <i>Phytophthora nicotianae</i>, and <i>Sclerotinia sclerotiorum</i>. …”
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Diversity of <i>Phytophthora</i> Communities across Different Types of Mediterranean Vegetation in a Nature Reserve Area by Mario Riolo, Francesco Aloi, Federico La Spada, Saverio Sciandrello, Salvatore Moricca, Elena Santilli, Antonella Pane, Santa Olga Cacciola

“…<i>bilorbang</i>, <i>P. cryptogea</i>, <i>P. gonapodyides</i>, <i>P. lacustris</i>, <i>P. multivora</i>, <i>P. nicotianae</i>, <i>P. oleae</i>, <i>P. parvispora</i>, <i>P. plurivora</i> and <i>P. syringae</i>. …”
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Characterization and Antagonistic Effect of Culturable Apple-Phyllosphere Endophytic Bacteria from the Cold Plateau in Yunnan, China by Xinlong Pan, Pengbo He, Cong Zhou, Haichun Cun, Pengfei He, Shahzad Munir, Yixin Wu, Ayesha Ahmed, Suhail Asad, Jun Ma, Yongcui Ma, Yanming Zhang, Keqiang Cao, Baohua Kong, Yueqiu He

“…<i>cubense</i> that causes banana Fusarium wilt, and <i>Phytophthora nicotianae</i> that causes tobacco black shank. Among these isolated endophytic bacteria species, a total of 10 strains, including b3, b4, b16, b17, b20, and b23 of <i>B. subtilis</i>, b7, b24, and b28 of <i>B. licheniformis</i>, and b38 of <i>B. velezensis</i>, can fix nitrogen; 8 strains, including b7 and b28 of <i>B. licheniformis</i>, b5, b10, and b23 of <i>B. subtilis</i>, b8 of <i>B. safensis</i>, and b6 of <i>Priestia megaterium</i>, could dissolve inorganic phosphorus; 11 strains, including b9, b12, b14, b30, b34, and b43 of <i>B. velezensis</i>, b6 of <i>Priestia megaterium</i>, and b17, b18, b20, and b26 of <i>B. subtilis</i>, could degrade organic phosphorus; and 5 strains, including b4, b5, and b26 of <i>B. subtilis</i>, and b7 and b28 of <i>B. licheniformis</i> could dissolve potassium. …”
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