Marine Science Institute, University of the Philippines, Diliman, 1101 Quezon City, Philippines.
Mar Pollut Bull. 2013 Dec 15;77(1-2):325-32. doi: 10.1016/j.marpolbul.2013.09.018. Epub 2013 Sep 27.
Ratios of sucrose-negative to sucrose-positive vibrios on TCBS agar (suc-/suc+) indicate the abundance of potential human pathogenic non-cholera vibrios in coastal mariculture environments of the Lingayen Gulf (Philippines. In guts of adult maricultured milkfish (Chanos chanos) of suc- vibrios reached extreme peak values ranging between 2 and 545 million per g wet weight. Suc- vibrios outnumbered suc+ vibrios in anoxic sediments, too, and were rarely predominant in coastal waters or in oxidized sediments. Suc-/suc+ ratios in sediments increased toward the mariculture areas with distance from the open sea at decreasing redox potentials. There is circumstantial evidence that suc- vibrios can be dispersed from mariculture areas to adjacent environments including coral reefs. An immediate human health risk by pathogenic Vibrio species is discounted, since milkfish guts contained mainly members of the Enterovibrio group. A representative isolate of these contained proteolytic and other virulence factors, but no genes encoding toxins characteristic of clinical Vibrio species.
TCBS 琼脂上蔗糖阴性/阳性弧菌的比例(suc-/suc+)表明在菲律宾林加延湾的沿海水产养殖环境中潜在的人类致病性非霍乱弧菌的丰度。在成年养殖虱目鱼(Chanos chanos)的肠道中,suc-弧菌的数量达到了 2 到 54500 万每克湿重的极值。在缺氧沉积物中,suc-弧菌也超过了 suc+弧菌,而且在沿海水域或氧化沉积物中很少占优势。随着离海的距离增加,沉积物中的 suc-/suc+比例在还原电势降低的情况下增加。有间接证据表明,suc-弧菌可以从水产养殖区传播到包括珊瑚礁在内的相邻环境。由于虱目鱼的肠道主要包含肠杆菌科的成员,因此致病弧菌的即时人类健康风险可以被排除。这些代表性分离株含有蛋白水解和其他毒力因子,但没有编码临床弧菌特征毒素的基因。
