池塘水
池塘水的相关文献在1976年到2022年内共计175篇,主要集中在水产、渔业、中国文学、畜牧、动物医学、狩猎、蚕、蜂
等领域,其中期刊论文156篇、会议论文1篇、专利文献195773篇;相关期刊104种,包括农民致富之友、花木盆景:花卉园艺、花卉等;
相关会议1种,包括2004’中日水环境污染防治与修复学术研讨会等;池塘水的相关文献由262位作者贡献,包括刘畅、向鹏、张宏成等。
池塘水—发文量
专利文献>
论文:195773篇
占比:99.92%
总计:195930篇
池塘水
-研究学者
- 刘畅
- 向鹏
- 张宏成
- 李俊
- 王曼
- 蔡玲燕
- 陈雷雷
- 黄宇良
- G·里特
- 刘安柏
- 王芳芳
- 纪永亮
- 蒋树义
- 谢岳成
- 赵亚东
- IQBAL Jibran
- 丁树文
- 乐平义
- 乔芬
- 于凤娥
- 于宏伟
- 于忠诚
- 于涵阳
- 任竞
- 任里行
- 伞秋月(指导)
- 何友昭
- 余先明
- 余浩
- 侯明辉
- 倪汉金
- 全罡
- 关文怡
- 刘安郁
- 刘明军
- 刘松
- 刘波
- 刘海涛
- 刘爽
- 刘琦
- 刘群堂
- 刘运辉
- 刘雅君
- 刘霞
- 叶云
- 叶小宝
- 叶志平
- 向双云
- 向祖杰
- 吕春浩
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刘琦;
陈丽芝;
王芳芳
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摘要:
三门县是浙江省海水养殖大县,全县海水养殖面积近20.3万亩,其中海水池塘养殖面积8.9万亩。海水池塘采用虾、蟹、贝混养的模式,利用不同生物对于饲料需求的互补关系,实现池塘内在营养平衡。现代化养殖对海水养殖生态化可持续发展的要求越来越高,养殖户在追求经济效益的同时也要兼顾环境的可持续发展。浙江铭港水产养殖有限公司开展池塘水内循环缢蛏生态养殖模式试验,探索围塘养殖循环利用、可持续发展。试验充分利用养殖塘边角空间和大塘水体肥度,构建内塘围栏,同时利用气泵推力产生池水流动,形成与自然海区一样的高溶氧状态,使浮游生物分布更均匀,大塘生物与内塘生物得到有效互补。该养殖模式在提高池塘利用率的同时,对改善养殖环境、节水净水、增加效益等方面具有重要意义。
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摘要:
大故事秋天,莲子采摘完后,就进入了大批量挖藕的季节。这一天,年幼的李四光跟着伙伴们到离家较远的一口公共池塘去挖藕。莲藕长在淤泥里,要挖到它,不仅隔着不浅的池塘水,还隔着厚厚的烂泥。因此,说是挖藕,主要用的却是脚,所以也有人将之叫成"踩藕"。来到目的地,小伙伴们纷纷跳入池塘乱踩一通,都有不错的收获。
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王芳芳
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摘要:
“乳鸭池塘水浅深,熟梅天气半晴阴。东园载酒西园醉,摘尽枇杷一树金。”——南宋戴敏写的《初夏游张园》。所有写枇杷的诗中,这是我最喜欢的一首。因为满满都是大自然的色彩与气味。满满的,都是闲暇,是人世间的欢悦。枇杷成熟,总在半潮晦半明媚的季节,雨丝镇日斜,浓绿满平芜。
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宋光同;
乐平义
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摘要:
青虾,学名日本沼虾,广泛分布于我国淡水湖泊中,其肉质细嫩,肉味鲜美,营养丰富,蛋白质含量高,深受广大消费者喜爱,现为我国重要淡水虾类之一。青虾养殖对水质要求很高,优质、稳定的池塘水环境是青虾养殖取得高产高效的关键。
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马良骁
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摘要:
三伏天,夏日高温季节,水温也随之升高,有利于水产动物生长,但同时伴随水产动物病害多发、死亡率高、池塘水-底管理难度大,因此,高温季节水产养殖池塘管理工作显得尤为重要。尤其是现在气温不断升高的时节,为了确保水产动物健康生长,安全度过酷暑夏日,达到稳产高产目的,要强化池塘高温管理工作,做好每个细节。
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宋戴复古
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摘要:
乳鸭池塘水浅深,熟梅天气半晴阴。东园载酒西园醉,摘尽枇杷一树金。【注释】乳鸭:刚出生不久的小鸭。熟梅天气:梅子成熟的季节,即南方的梅雨季节。【阅读导航】刚出生的小鸭不顾水的深浅在池塘中嬉戏,梅子成熟的季节,天气总是时晴时阴。携(xie)酒游园,从东园到西园,直饮得酣(han)醉。
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李盛仙
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摘要:
蛙声是夏天最美的乐章,每到夏日雨后,池塘水涨,夜幕拉开,你会听到四处蛙声奏鸣,响成一片,煞是热闹。蛙声一旦进入诗人的听觉,凝练为诗句,就有管弦之美了。国人对蛙情有独钟自古有之。唐代诗人韩愈说:"一夜青蛙鸣到晓,恰如方口钓鱼时。"唐人张籍的《过贾岛野居》诗中就说:"蛙声篱落下,草色户庭间。"在张籍看来,蛙声和青草是隐士的标配。
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熊楠;
陈天航(文/图)
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摘要:
“乳鸭池塘水浅深,熟梅天气半阴晴。”初夏时节,在四川泸县畜禽粪污资源化处理中心旁,成群的乳鸭在清清的池塘里嬉戏,微风吹来阵阵橙花香味。雨后初晴,远山、近水、房屋、果树、群鸭、农户,俨然一幅美丽乡村生态画卷。“现在我们村的环境可好啦,即使在养猪场旁边也没有苍蝇和臭味,村里山清水秀、整洁干净。”村民汪大哥看着池塘里戏水的群鸭,一脸幸福地说道。
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摘要:
有一个“红井”的故事广为流传:在中央苏区时期,毛泽东同志带领队伍来到沙洲坝。沙洲坝地处干旱地带,当地百姓喝的是不干净的池塘水,很容易生病。毛泽东同志便带领干部群众一起选址挖井,让百姓喝上了清澈甘甜的井水。一口水井穿越时空,见证着党和群众的鱼水深情。开展党史学习教育,就是要把中国共产党人的初心和使命传承下去,把党史学习的感悟转化为实实在在为群众办实事的动力。
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池道彦;
遠山忠;
熊田浩英;
清和成;
藤田正憲
- 《2004’中日水环境污染防治与修复学术研讨会》
| 2004年
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摘要:
For the confirmation of the accelerated phenol degradation effect and understanding itsmechanisms in the rhizosphere of aquatic plant Spirodela polyrrhiza, phenol degradation tests andmicrobial monitoring were performed using pond water with/without Spirodela or sterilized Spirodela.Phenol degradation was accelerated in pond water with Spirodela and even with sterilized Spirodela incomparison to pond water. During phenol degradation, the number of 16S rDNA, and catechol1,2-dioxygenase (C120) and catechol 2,3-dioxygenase (C230) genes on Spirodela rhizoplane and in pondwater was monitored by MPN-PCR as indicators of total bacteria and phenol degrading bacteria,respectively. It revealed that Spirodela selectively accumulated and supported the growth of bacteriapossessing C120 and C230 genes on the rhizoplane. Thus Spirodela acts as a "stimulator" of phenoldegrading bacteria in its rhizosphere to accelerate phenol degradation in pond water.
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池道彦;
遠山忠;
熊田浩英;
清和成;
藤田正憲
- 《2004’中日水环境污染防治与修复学术研讨会》
| 2004年
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摘要:
For the confirmation of the accelerated phenol degradation effect and understanding itsmechanisms in the rhizosphere of aquatic plant Spirodela polyrrhiza, phenol degradation tests andmicrobial monitoring were performed using pond water with/without Spirodela or sterilized Spirodela.Phenol degradation was accelerated in pond water with Spirodela and even with sterilized Spirodela incomparison to pond water. During phenol degradation, the number of 16S rDNA, and catechol1,2-dioxygenase (C120) and catechol 2,3-dioxygenase (C230) genes on Spirodela rhizoplane and in pondwater was monitored by MPN-PCR as indicators of total bacteria and phenol degrading bacteria,respectively. It revealed that Spirodela selectively accumulated and supported the growth of bacteriapossessing C120 and C230 genes on the rhizoplane. Thus Spirodela acts as a "stimulator" of phenoldegrading bacteria in its rhizosphere to accelerate phenol degradation in pond water.
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池道彦;
遠山忠;
熊田浩英;
清和成;
藤田正憲
- 《2004’中日水环境污染防治与修复学术研讨会》
| 2004年
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摘要:
For the confirmation of the accelerated phenol degradation effect and understanding itsmechanisms in the rhizosphere of aquatic plant Spirodela polyrrhiza, phenol degradation tests andmicrobial monitoring were performed using pond water with/without Spirodela or sterilized Spirodela.Phenol degradation was accelerated in pond water with Spirodela and even with sterilized Spirodela incomparison to pond water. During phenol degradation, the number of 16S rDNA, and catechol1,2-dioxygenase (C120) and catechol 2,3-dioxygenase (C230) genes on Spirodela rhizoplane and in pondwater was monitored by MPN-PCR as indicators of total bacteria and phenol degrading bacteria,respectively. It revealed that Spirodela selectively accumulated and supported the growth of bacteriapossessing C120 and C230 genes on the rhizoplane. Thus Spirodela acts as a "stimulator" of phenoldegrading bacteria in its rhizosphere to accelerate phenol degradation in pond water.
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池道彦;
遠山忠;
熊田浩英;
清和成;
藤田正憲
- 《2004’中日水环境污染防治与修复学术研讨会》
| 2004年
-
摘要:
For the confirmation of the accelerated phenol degradation effect and understanding itsmechanisms in the rhizosphere of aquatic plant Spirodela polyrrhiza, phenol degradation tests andmicrobial monitoring were performed using pond water with/without Spirodela or sterilized Spirodela.Phenol degradation was accelerated in pond water with Spirodela and even with sterilized Spirodela incomparison to pond water. During phenol degradation, the number of 16S rDNA, and catechol1,2-dioxygenase (C120) and catechol 2,3-dioxygenase (C230) genes on Spirodela rhizoplane and in pondwater was monitored by MPN-PCR as indicators of total bacteria and phenol degrading bacteria,respectively. It revealed that Spirodela selectively accumulated and supported the growth of bacteriapossessing C120 and C230 genes on the rhizoplane. Thus Spirodela acts as a "stimulator" of phenoldegrading bacteria in its rhizosphere to accelerate phenol degradation in pond water.