Method for sowing fixed life-form seaweed seedlings on sea surface

A technology for seaweed and seedlings, applied in seaweed cultivation, botany equipment and methods, climate change adaptation, etc., can solve problems such as lack of environment, high investment, and increased difficulty in spore germination, so as to achieve economic benefits, increase fishery resources, dominant effect

Inactive Publication Date: 2011-08-03
QINGDAO AGRI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, marine plant resources including seagrass and other marine plant resources near the coast of my country have been decreasing for a long time. However, the construction of seaweed beds and algae reefs is not only limited by geographical conditions, but also requires high investment, making it difficult to form industrialization. Traditional artificial algae reefs are the first After the reef is built, there are wild algae attached, so the algae species in the artificial algae reef are various, the dominant species is not obvious, and the algae are difficult to harvest. From the perspective of fixing C and N, after the algae rots, the C, N, P fixed by the algae It returns to the water body again, which cannot completely solve the ecological problem
[0003] Sessile living macroalgae must be attached to the substrate to grow and develop. However, due to

Method used

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  • Method for sowing fixed life-form seaweed seedlings on sea surface
  • Method for sowing fixed life-form seaweed seedlings on sea surface

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Effect test

Embodiment 1

[0033] The present invention attaches the selected seedlings of sessile macroalgae to the live shellfish of the attached type in the stage of indoor artificial seedling cultivation, and spreads the shellfish attached to the seedlings of the algae to the bottom of the seabed with the attachment substrate in the stage of sowing, and utilizes the shellfish As an intermediary, the shellfish first attaches to the seabed substrate, and the fixator of the algae attaches to the seabed substrate through the stable conditions given by the attached shellfish, so that the seedlings of large seaweed can be attached to the seabed in a simple way by spreading on the sea surface the goal of.

[0034] The steps of a sea surface sowing method for fixed life type seaweed seedlings according to the present invention are as follows:

[0035] 1. Selection and treatment of shellfish for seaweed attachment substrate

[0036] A. Selection of sessile life-type seaweed: choose algae with fast growth, l...

Embodiment 2

[0068] The steps of a sea surface sowing method for fixed life type seaweed seedlings according to the present invention are as follows:

[0069] 1. Selection and treatment of shellfish for seaweed attachment substrate

[0070] A. Selection of sessile life-type seaweed: In this embodiment, kelp is selected as sessile life-type seaweed.

[0071] B. Selection of shellfish used for the seaweed attachment base: In this embodiment, purple mytilus is selected as the attachment base. The size of mussels is preferably 0.5-2cm in shell length.

[0072] C. Disinfection of shellfish

[0073] After doing all the preparations for seaweed seedlings and obtaining the shellfish used as the attachment base, the shellfish should be disinfected first to remove the algae attached to the shells in the natural sea area, and the blue mussel is used as the attachment base. When cleaning, use 10% hydrochloric acid diluent for rubbing with the hands, spray the hydrochloric acid solution with a water...

Embodiment 3

[0089] The steps of a sea surface sowing method for fixed life type seaweed seedlings according to the present invention are as follows:

[0090] 1. Selection and treatment of shellfish for seaweed attachment substrate

[0091] A. Selection of sessile life-type seaweed: In this embodiment, Undaria pinnatifida is selected as sessile life-type seaweed.

[0092] B. Selection of molluscs for anchoring living seaweeds: In this embodiment, the emerald mussel is selected as the attachment base. The size of the emerald mussel is preferably 0.5-2cm in shell length.

[0093] C. Disinfection of shellfish

[0094] After doing all the preparations for seaweed seedlings and obtaining the emerald mussels used as the attachment base, first disinfect the emerald mussels to remove the algae attached to the shells in the natural sea area. When attaching the base, use 11% hydrochloric acid solution for scrubbing, spray the hydrochloric acid solution 3-5 times with a watering can, and scrub for...

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Abstract

The invention provides a method for sowing fixed life-form seaweed seedlings on the sea surface. The method comprises the following steps: (1) selection and treatment of shellfish used as substrates of the seaweeds; (2) culture of seedlings of the seaweeds using the shellfish as the substrates; and (3) sowing: the shellfish is lamellibranchia shellfish. The method has the following advantages: the aim that the fixed life-form seaweeds adhere to the submarine rocks through the convenient way of sowing on the sea surface is achieved; the new species (protospecies) for studying propagation and cultivation of the algae in China are convenient to popularize and apply in the submarine algae field; the biomass of the algae in the submarine algae field is increased, the dominant species of the algae are obvious and are convenient to harvest, and the fixed substances of the algae, such as C, N, P and the like, are taken from the sea to the land, so the effect on solving the ecological problemslasts longer and the contributions of the seaweeds to the sea ecology are effective for a long term; the submarine geomorphy is not changed and the original sea ecology is not damaged; the cost is low and the investment is low; and the built submarine algae field can be harvested, the economic benefits are acquired by adding the fishery resources and industrialized popularization and application can be carried out.

Description

technical field [0001] The invention relates to a sea surface sowing method of fixed life type seaweed seedlings. Background technique [0002] The impact of forests on the terrestrial environment has long been valued by people, and the impact of marine algae as trees in the ocean on the marine ecological environment has also been valued by marine workers. The bioremediation effect of macroalgae on marine ecology is a consensus in the marine ecology community: algae absorb CO in water 2 , participate in the global carbon cycle and consume atmospheric CO 2 effect to achieve the goal of controlling greenhouse gases; the O emitted by algae photosynthesis 2 It increases the dissolved oxygen content in the water body and improves the water quality; the algae absorb inorganic salts such as N and P, which can solve the problem of marine eutrophication and reduce the resulting marine ecological crises such as red tides and the explosive proliferation of Enteromorpha. The role of ...

Claims

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Application Information

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IPC IPC(8): A01G33/00
CPCY02A40/80
Inventor 刘升平赵迎春杨宁王春德
Owner QINGDAO AGRI UNIV
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