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Stereoscopic culturing system and method of porphyra yezoensis shell protonema

A conch filament and three-dimensional culture technology, which is applied in the fields of botany equipment and methods, cultivation, plant cultivation, etc., can solve the problems of increased management costs and production risks, conflicts in the timing of picking seedlings for conchospores, long cultivation periods, etc. question

Inactive Publication Date: 2015-02-25
INST OF OCEANOLOGY & MARINE FISHERIES JIANGSU
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Because the open cement pool model is difficult to get rid of the dependence on natural climate conditions, the existing technology has great limitations in the time selection, and generally can only be inoculated with fruit spores (or filaments) from mid-April to early May every year. ), from late September to early October
On the one hand, this natural limitation stipulates a longer cultivation period, on the other hand, it often occurs that the time for collecting seedlings of conchospores conflicts with the suitable time for launching seedling nets into the sea, and most manufacturers need to increase the "refrigeration" link to connect The time difference between laver seedling cultivation and sea cultivation increases management costs and production risks

Method used

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  • Stereoscopic culturing system and method of porphyra yezoensis shell protonema

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Embodiment Construction

[0026] Below in conjunction with specific embodiment, further illustrate the present invention. It should be understood that these examples are only used to illustrate the present invention and are not intended to limit the scope of the present invention. In addition, it should be understood that after reading the teachings of the present invention, those skilled in the art can make various changes or modifications to the present invention, and these equivalent forms also fall within the scope defined by the appended claims of the present application.

[0027] The invention relates to a three-dimensional cultivation system of Porphyra zebra shell filaments, such as figure 1 As shown, a plurality of culture tanks 1 are included, and the multiple culture tanks 1 are three-dimensionally distributed; a water storage tank 2 is arranged under the culture tank 1; the water storage tank 2 introduces water into the culture tank 1 through a water circulation system 3 In the middle; the...

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Abstract

The invention relates to a stereoscopic culturing system and method of porphyra yezoensis shell protonema. The stereoscopic culturing system comprises a plurality of culturing tanks which are distributed stereoscopically, a water storage tank is arranged under the culturing tanks and leads water into the culturing tanks through a water circulation system, and the culturing tanks are each further provided with an artificial light source used for culturing shell protonema. The culturing method includes the steps that light is regulated, wherein 400-500 nm of blue light and 600-700 nm of red light are the main, and light sources at other spectral lines are also taken into account; the intensity ratio of the red light to the blue right is regulated between 4:1 and 12:1; light intensity is controlled between 500 Lux and 5000 Lux; the daily illumination time of the artificial light sources is regulated between 8 hours and 18 hours. The stereoscopic culturing system and method of porphyra yezoensis shell protonema can improve the reliability of seedling culturing production, shorten the culturing period of shell protonema, flexibly arrange the harvesting time of conchospore, and largely reduce the production cost.

Description

technical field [0001] The invention relates to the technical field of cultivating Porphyra zebra shell filaments, in particular to a three-dimensional culture system and a cultivation method for Porphyra zebra shell filaments. Background technique [0002] The cultivation of seaweed shell filaments is the main technical connotation of the seaweed seedling cultivation project. The existing technology relies on the plane structure conditions of the cement pool and adopts an open water-changing cultivation mode. [0003] The current steps of Porphyra zebra seedling cultivation technology are: from mid-April to early May every year, inoculate the fruit spores (or crushed fragments of free filaments) of mature Porphyra on the shells that are tiled in the cement pool, and after about 5 After one month of cultivation (suitable seawater conditions and light and temperature conditions are required), the nacre of the shells is gradually covered with filaments. Under the stimulation o...

Claims

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Application Information

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IPC IPC(8): A01G33/02
Inventor 程滨陆勤勤胡传明周伟朱庙先
Owner INST OF OCEANOLOGY & MARINE FISHERIES JIANGSU
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