CN105707016A - Method for artemia culture in high salinity environment - Google Patents

Abstract

The invention discloses a method for artemia culture in a high salinity environment. The method comprises the following steps: (1) injecting brine having the salinity of 80-100g/L to a culture pond, wherein pH of the brine is 7.8 to 8.2, and the depth of a water body is 50 to 100 cm; (2) putting organic manure, urea and diammonium hydrogen phosphate to the culture pond periodically, and inoculating artemia nauplii to the pond with an inoculating density of 100 to 120 in each liter of water body when the density of unicellular algae in the water of the pond reaches 500,000 to 1,000,000 per milliliter; (3) after artemia inoculation, detecting the total nitrogen level in the water body weekly, and adding a carbon source according to a proportion of (C/N) being 10: 1; continuously collecting artemia cysts appearing in the water body in a culture process. Due to the adoption of the technical solution, the wet weight in the yield of artemia cysts in per hectare of culture area after the artemia is inoculated for 6 weeks is over 10kg, and no culture water needs to be changed in the entire culture process, therefore water sources are saved, the energy consumption is decreased and the environment pollution is reduced.

Description

A kind of artemia culture method under hypersaline environment

Technical field

The present invention relates to artemia culture field, particularly relate to a kind of artemia culture method under hypersaline environment.

Background technology

Artemia (Artemia) belongs to Arthropoda (Phylum Arthropoda), Crustachia (Class Crustacea), Branchiopoda (Subclass Branchiopoda), Anostraca (Order Anostraca), Artemia section (Family Artemidae), is distributed widely in inland brine lake and day salt field evaporation tank, is Primary biological population in high salt waters, has oviparity and two kinds of puerperal of ovoviviparity for mode.Artemia be in, Key consumer in high salinity ecosystem of salt pan and Ecological regulation person, be again splendid fresh and alive of aquatic product sprout Bait.Along with the fast development of aquatic fry growing industry, the demand of artemia cysts rises year by year, preresearch estimates 2010 Year, global artemia cysts product demand amount reached 3000 tons.

Biological flocculation is by with zoogloea, filamentous bacteria as core, attached microbial extracellular products extracellular polymer Body and Bao Nei product poly-beta-hydroxy-butyrate, polyphosphate, polysaccharide etc. and the cation of bivalence, The mixing mutually such as the heterotrophic bacteria of agglomeration, digestion bacterium, denitrifying bacteria, algae, fungus, protozoacide is through complexity Biochemical processes and the aggregate that formed, be mainly composed of heterotrophic bacteria.Biological flocculation technology is to combine The novel aquiculture technology of water treatment and the supply of bait albumen.It is by expenditure in cultivating system The bait of outer carbon source or directly input high carbon content comes carbon and the ratio of nitrogen in regulation system, in accelerating system Microorganism absorbs and converts cultivated animals Excreta and residual bait, reduces breeding water body ammonia-nitrogen content, and by its turn Chemical conversion microprotein is ingested for cultivated animals secondary, makes bait be recycled, thus realizes limited Intensive cultivation under the conditions of land resource, it is to avoid frequent exchange breeding water, saving water resource, reduction energy Consumption, can effectively prevent the propagation of epidemic disease simultaneously.

Artemia is as non-selective filter feeder, mainly (general for food with filter food Micro Algae and organic debris Granule is less than 50 μm), food ration is big.But under high salt conditions, algal grown is restricted, and artemia is frequent It is in food deprivation state.People's chicken manure of generally splashing in the pond of salt pan stimulates algal grown, but owing to being subject to Salinity limits, and classification of salt field water bodies exchange is difficulty with, and easily damages water quality.Should by biological flocculation technology For salt pan ecological regulation and control and artemia artificial cultivation, make full use of the feature of artemia non-selective filter food, pass through Appropriate fertilising, interpolation carbon source and regulation carbon-nitrogen ratio (C/N), not only facilitation is played in the growth to microalgae, And stimulate the breeding of heterotrophic bacteria, make microorganism directly utilize inorganic nitrogen-sourced, thus reach purifying water body and The purpose of good bait albumen is provided for artemia, achieves many things at one stroke.

But, the application technology about biological flocculation is essentially confined to fresh water, brackish water and ordinary sea water at present System, in terms of Technology of Artemia Culture, has also been not set up for utilizing biological flocculation to carry out under hypersaline environment The mature technology of artemia high-density breeding.

Summary of the invention

It is an object of the invention to provide a kind of artemia culture method based on biological flocculation technology, height can be realized The high-density breeding of artemia under body of salt environment.

Technical scheme is achieved by the steps of:

1) injecting salinity in culturing pool is the salt of 80-100g/L, and salt pH is 7.8-8.2, and water body is deep Degree is 50-100cm；

2) periodically throwing in organic manure, carbamide and diammonium phosphate in culturing pool, that treats in water is slender When born of the same parents' algae density reaches every milliliter of 50-100 ten thousand, inoculating artemia nauplii in pond, inoculum density is: Every liter of water body 100-120 is only；

3) after artemia inoculation, the total nitrogen level in detection water body weekly, and be 10 according to carbon-nitrogen ratio (C/N): The ratio of 1 adds carbon source；Breeding process is constantly collected the artemia cysts occurred in water body.

In above-mentioned steps 3) in, for the preferred tapioca starch of carbon source, molasses or the Semen Maydis powder that add to culturing pool. It addition, for the sexual maturity degree accurately grasping artemia in breeding process, can periodically growth to artemia Situation carries out microexamination.For being continually changing of water salinity in breeding process, can be by supplementing not at any time Salt stablizing with maintenance breeding water body salinity with salinity.

It is preferred that step 1) in the salt that injects in culturing pool can be through 1mm and 200 μm screen cloth mistakes Salt after filter process.Wherein, 1mm screen cloth can effectively filter fish, shrimp and macrozooplankton；200μm Screen cloth is possible to prevent the entrance of artemia larvae and microzooplankton.

Preferably, above-mentioned steps 2) in the preferred chicken manure of organic manure or pig manure.Organic manure, carbamide and Diammonium phosphate addition manner in culturing pool is: per hectare cultured area throws in weekly organic manure 200-300kg, carbamide 100-120kg, diammonium phosphate 30-40kg, bag with fertilizer can be positioned over culturing pool Pool side position, is beneficial to fertilizer and is slowly applied in water.

Preferably, above-mentioned steps 2) in for culturing pool inoculation artemia nauplii by standard conditions under incubate Changing and obtain, incubation condition is as follows: water salinity 35g/L, artemia cysts density 2g/L, intensity of illumination 1000lux, Temperature 25-28 DEG C, brooding time 24h.

Carrying out above-mentioned steps 1) before, the cleaning that can first carry out culturing pool processes step, to kill fish, fish The biologies such as ovum, provide more preferably growing environment for artemia.Preferably, the cleaning process step of culturing pool is: Being dried after being drained by original water and tan by the sun, the time of process was at least one week.

By technical solution of the present invention, can realize the high-density breeding of artemia under high salt water body environment, artemia connects After kinds 6 weeks, the harvesting of artemia cysts (weight in wet base) of per hectare cultured area is up to more than 10kg, and whole cultivates Without changing breeding water in journey, it is effectively saved water resource, reduces energy consumption, decrease environment dirty simultaneously Dye.

Detailed description of the invention

Below by way of specific embodiment, technical solution of the present invention and effect are described further.Implement cultivation Place is positioned at Cheng Kou saltern, Shandong, and culturing pool area is 1 hectare, and culturing time is 7-8 month, specifically cultivates Step is as follows:

1) carry out culturing pool cleaning process: original water is drained laggard row one-week be dried and tan by the sun. To kill the biology such as fish, fish roe, provide more preferably growing environment for artemia.

2) injecting salinity in culturing pool is 100g/L salt, and salt pH is 8.0, and water depth is 50cm； The salt injected shifts to an earlier date this and processes through 1mm and 200 μm screen filtrations.Wherein, 1mm screen cloth effectively filter out fish, Shrimp and macrozooplankton；200 μm screen clothes filter artemia larvae and microzooplankton.

3) periodically throw in chicken manure, carbamide and diammonium phosphate in culturing pool, i.e. per hectare cultured area is every Week throws in chicken manure 250kg, carbamide 120kg, diammonium phosphate 40kg, is positioned over by bag with fertilizer foster during input Grow the pool side position in pond, be beneficial to fertilizer and be slowly applied in water.Treat that the unicellular alga in water is (main For Bacillariophyta and the unicellular alga of Chlorophyta, including Chaetoceros muelleri, Phaeodactylum, Dunaliella salina etc.) Density reaches during every milliliter of 50-100 ten thousand (water typically exhibits yellowish-brown or yellow green), inoculates in pond Artemia nauplii, inoculum density is: 120, every liter of water body.For the artemia inoculated to culturing pool without joint Germling is obtained by hatching under following standard conditions: in the water body that salinity is 35g/L, with the artemia of 2g/L Ovum density, in intensity of illumination be 1000lux, temperature be 25 DEG C under the conditions of hatch, after 24h collect at the beginning of Incubate artemia larvae.When inoculating artemia nauplii in culturing pool, choose down wind and artemia is splashed in salt pond In, to ensure that artemia larvae is evenly distributed in pond.

4) after artemia inoculation, total nitrogen level in detection water body weekly, and be 10:1 according to carbon-nitrogen ratio (C/N) Ratio add carbon source, carbon source is molasses.Artemia cysts is i.e. had to occur, to artemia after 1-2 week after inoculation Ovum is collected, and every day collects once；Extract artemia sample simultaneously every day and carry out the microexamination of development condition, There are resting egg or germling embryo to occur in i.e. observing female worm's ovum capsule after 2 weeks, show to reach sexual maturity (sexual maturity Time be typically the 2-4 week after inoculation after), correspondingly, water surface can be floating in a large number by female worm The artemia cysts discharged and the artemia larvae hatched, continue to collect artemia cysts, to postvaccinal 6th week, The total output of the artemia cysts of per hectare cultured area reaches 15kg (weight in wet base).In whole breeding process, support The salinity growing water body would generally constantly change, and such as water salinity can rise with moisture evaporation, Or owing to rainfall causes salinity decrease, for above-mentioned situation, when breeding water body salinity rises, salt can be supplemented Spend relatively low salt or sea water, when breeding water body salinity declines, the salt of higher concentration can be supplemented, with this Maintain stablizing of breeding water body salinity.

It addition, step 4) water quality index testing result in breeding process shows: total nitrogen level of water body is 15-50mg/L, total particle float (TSS) level is 200-800mg/L, volatile suspended matter (VSS) Level is 50-300mg/L, and water quality suitably carries out the lasting cultivation of artemia and without changing breeding water.Additionally, Without aeration in whole breeding process, the dissolved oxygen in breeding water body remains between 3-10mg/L.

Claims (7)

1. an artemia culture method, it is characterised in that comprise the steps:

1) injecting salinity in culturing pool is the salt of 80-100g/L, and salt pH is 7.8-8.2, water depth For 50-100cm；

2) periodically throwing in organic manure, carbamide and diammonium phosphate in culturing pool, that treats in water is slender When born of the same parents' algae density reaches every milliliter of 50-100 ten thousand, inoculating artemia nauplii in pond, inoculum density is: Every liter of water body 100-120 is only；

3) after artemia inoculation, the total nitrogen level in detection water body weekly, and according to the ratio that carbon-nitrogen ratio is 10:1 Example adds carbon source；Breeding process is constantly collected the artemia cysts occurred in water body.

Artemia culture method the most according to claim 1, it is characterised in that: described step 3) middle use It is tapioca starch, molasses or Semen Maydis powder in the carbon source added to culturing pool.

Artemia culture method the most according to claim 1, it is characterised in that: described step 1) in support Growing the salt injected in pond is the salt after 1mm and 200 μm screen filtrations process.

Artemia culture method the most according to claim 1, it is characterised in that: described step 2) in have Machine muck is chicken manure or pig manure；The interpolation in culturing pool of described organic manure, carbamide and diammonium phosphate Mode is: per hectare cultured area throws in weekly organic manure 200-300kg, carbamide 100-120kg, phosphoric acid Hydrogen diammonium 30-40kg.

Artemia culture method the most according to claim 1, it is characterised in that: described step 2) in be used for Obtaining by hatching under standard conditions to the artemia nauplii of culturing pool inoculation, incubation condition is as follows: water body salt Degree 35g/L, artemia cysts density 2g/L, intensity of illumination 1000lux, temperature 25-28 DEG C, brooding time 24h.

Artemia culture method the most according to claim 1, it is characterised in that: in described step 1) before The cleaning first carrying out culturing pool processes step, and described cleaning processes step and is: carry out after being drained by original water Being dried and tan by the sun, the time of process was at least one week.

Artemia culture method the most according to claim 1, it is characterised in that: described step 3) in also Proceed as follows: periodically the development condition of artemia is carried out microexamination；For water body salt in breeding process Being continually changing of degree, supplements the salt of different salinity at any time to maintain stablizing of breeding water body salinity.