世纪中文出版社

array(1) { [0] => &array(22) { ["doi"] => string(0) "" ["doiwz"] => string(0) "" ["id"] => string(5) "73418" ["name"] => string(51) "鱼类环境耐受性与抗逆性育种研究进展" ["includes"] => string(3) "0-2" ["time"] => string(10) "2025-03-21" ["click"] => string(3) "426" ["soziding1"] => string(51) "郭红会1 胡振2 张金刚1 邹桂伟1 梁宏伟1" ["soziding2"] => string(57) "水产种业；水产养殖；环境胁迫；抗逆育种" ["soziding3"] => string(88) "1.中国水产科学研究院长江水产研究所；2.湖北省水产技术推广总站" ["soziding4"] => string(0) "" ["soziding5"] => string(18) "水产研究进展" ["soziding6"] => string(0) "" ["soziding7"] => string(2) "80" ["soziding8"] => string(0) "" ["soziding9"] => string(4) "2023" ["soziding10"] => string(1) "2" ["qitaduanzhi"] => string(21) "{"doi":"","doiwz":""}" ["tupian"] => string(0) "" ["jieshao"] => string(0) "" ["miaoshu"] => string(804) "随着高密度集约化水产养殖业的发展，溶解氧、水温和氨氮等水环境因子胁迫已成为制约渔业高质量发展的限制性因素，抗逆水产新品种的培育成为重要的解决途径之一。本文综述了鱼类对温度、低氧、氨氮、亚硝态氮、盐碱胁迫的响应机制，以及环境耐受性鱼类新品种的育种现状，提出充分利用第一次全国水产养殖种质资源系统调查结果发掘优异种质资源，建立高通量表型和基因型精准鉴定技术，深入解析鱼类响应环境因子胁迫的机制，利用分子标记辅助育种、全基因组选择育种、基因编辑育种和分子设计育种等现代分子育种技术进行高效精准抗逆新品种的培育，为鱼类抗逆性新品种培育提供参考。" ["soziding20"] => string(0) "" } }