CN107262439A - A kind of method for removing miscellaneous algae Enteromorpha on cultivation lace curtaining - Google Patents

Abstract

The invention belongs to marine organisms field, a kind of method that lace curtaining supernatant removal of impurities algae Enteromorpha is cultivated from Porphyra yezoensis is related in particular to.The Porphyra yezoensis lace curtaining that has miscellaneous algae Enteromorpha of growing nonparasitically upon another plant, which is placed in acid solution, to be soaked, and is placed in nature seawater and is recovered afterwards, and then Enteromorpha is removed (death), and does not influence Porphyra yezoensis to grow.The present invention is simple to operate, and method effectively, can improve the yield and quality of Porphyra yezoensis, improve the economic benefit of seaweed industry.

Description

A kind of method for removing miscellaneous algae Enteromorpha on cultivation lace curtaining

Technical field

The invention belongs to marine organisms field, relate in particular to a kind of Porphyra yezoensis of removing and cultivate miscellaneous algae Enteromorpha on lace curtaining Method.

Background technology

Seaweed has important nutritive value and economic value, cultivates extensively in the coastal various countries in Southeast Asia.The world in 2013 Seaweed yield is about 1,800,000 tons, and the output value is up to 1,200,000,000 dollars (FAO).China's seaweed industry development is rapid, according to 2016 China Fisheries The data that statistical yearbook is announced, China's laver culture area in 2016 is 65766 hectares, and cultured output is 115875 tons.The Changjiang river To the north of based on Porphyra yezoensis, be concentrated mainly on Jiangsu Province and Shandong Province.Wherein about 330,000 mu of Jiangsu Province seaweed cultivated area, from Industry personnel 80,000 or so, and the main producing region of China's Porphyra yezoensis, the industry gross output value 20 are formd in Nantong, Yancheng and Lianyun Harbour sea area Hundred million yuan or so, be the important component that China's export is earned foreign exchange.

A variety of miscellaneous algaes that grow nonparasitically upon another plant are easy in seaweed cultivation, on lace curtaining, the wherein harm of Enteromorpha is maximum.In seaweed children Seedling stage, if Enteromorpha is grown nonparasitically upon another plant will have a strong impact on the growth of seaweed seedling in lace curtaining；In the middle and later periods of cultivation, the meeting of growing nonparasitically upon another plant of Enteromorpha Influence yield, harvest and the quality of seaweed.Therefore, having carried out technology and the methods such as " cold net ", " dry dew ", kill purple with streak Dish has the miscellaneous algae of competitive relation, but excessive (time, human cost etc.) due to being restricted factor, and progress is relatively slow.Such as What simplicity, economically removing are attached to the miscellaneous algae on seaweed lace curtaining, it has also become the problem of restriction Porphyra yezoensis cultivation.

The content of the invention

It is an object of the invention to provide a kind of method for removing miscellaneous algae Enteromorpha on Porphyra yezoensis cultivation lace curtaining.

To achieve the above object, the present invention use technical scheme for：

A kind of method for removing miscellaneous algae Enteromorpha on cultivation lace curtaining, the Porphyra yezoensis lace curtaining that has miscellaneous algae Enteromorpha of growing nonparasitically upon another plant is placed in acid Soaked in solution, be placed in nature seawater and recover again afterwards, Enteromorpha is removed, and the Porphyra yezoensis on lace curtaining is given birth to It is long, the photochemical vitality change of frond is determined after restoring sea water, concentration and influence of the time to frond of acid treatment is analyzed, And then miscellaneous algae Enteromorpha on acid treated lace curtaining can be enable to remove.

The pH of the acid solution is 1.0-2.0；Soak time is 30s-10min.

The pH of the acid solution is 1.0 or 2.0.

Described to be immersed in the acid solution that pH is 1.0, the immersion treatment time is 30s-120s；

In pH in 2.0 acid solution, the immersion treatment time is 3min-10min.

The acid is one kind in hydrochloric acid, sulfuric acid and phosphoric acid.

Comprise the following steps that：

1. it is 2.0 sulfuric acid or phosphoric acid solution to configure hydrochloric acid solution (pH is 1.0,2.0,3.0,4.0) and pH.

2. the good Porphyra yezoensis of growth conditions and Enteromorpha frond are thrown in different acid solutions, Dual-PAM is used Determine photosynthetic parameters.

3. after acid treatment for a period of time, frond being taken out to be placed in nature seawater and recovered, photosynthetic parameters are determined.

Enteromorpha and Porphyra yezoensis are respectively placed in the hydrochloric acid solution that pH is 1.0,2.0,3.0 and 4.0 and handled by the present invention. In the hydrochloric acid solution that pH is 1.0, Enteromorpha F after 30s_v/F_mValue be to be reduced to 0, and can not recover；After Porphyra yezoensis processing 2min Recover 1 day, its photosynthetic activity can recover.In the hydrochloric acid solution that pH is 2.0, Enteromorpha F after 3min_v/F_mValue be reduced to 0, it is impossible to it is extensive It is multiple；Even if recovering again after Porphyra yezoensis acid treatment 10min, its photosynthetic activity can also recover.In the hydrochloric acid solution that pH is 3.0, F after Enteromorpha acid treatment 20min_v/F_mValue be reduced to 0, and can not recover；Recovered again after Porphyra yezoensis processing 20min, it is photosynthetic Activity can be recovered.In the hydrochloric acid solution that pH is 4.0, Enteromorpha F after 120min acid treatment_v/F_mValue remain unchanged it is very big, The F of Porphyra yezoensis_v/F_mValue be remarkably decreased on the contrary, frond recover after can all recover photosynthetic activity.At the acid that pH is 3.0 and 4.0 The reason time is longer and effect is not good, is not suitable for removing the removing of miscellaneous algae Enteromorpha on cultivation lace curtaining.

Enteromorpha and Porphyra yezoensis are respectively placed in the sulfuric acid and phosphoric acid solution that pH is 1.0 and 2.0, its effect and phase by the present invention It is similar with the HCl treatment result of pH value.After pH is 1.0 acid treatment 30s, Enteromorpha F_v/F_mValue be to be reduced to 0, and can not Recover；Recover after Porphyra yezoensis processing 2min, its photosynthetic activity can recover.In the acid solution that pH is 2.0, Enteromorpha after 3min F_v/F_m0 is reduced to, is recovered 1 day in nature seawater, its photosynthetic activity is irrecoverable, it is still irrecoverable even if recovering 3 days；It is purple After dish acid treatment 3min, F_v/F_mValue be down to about 0.35 (value of normal frond is about 0.60), after recovering 1 day, its photosynthetic activity Recover to normal level, even if acid treatment 5min (F_v/F_mValue be about that 0.30), frond photosynthetic activity, which remains unchanged, to be recovered.

From above-mentioned, through certain density acid treatment for a period of time, Porphyra yezoensis can be made to cultivate the miscellaneous algae waterside on lace curtaining Tongue is dead, the growth without influenceing Porphyra yezoensis frond.The acid treatment time is too short, does not reach the purpose for removing Enteromorpha；Acid treatment Overlong time, can also influence the growth of Porphyra yezoensis.The pH of acid solution is too high, even if increase processing time, does not reach removing yet The purpose of miscellaneous algae Enteromorpha, is not suitable for production application, and then find using specific processing mode, and for the specific of which Optimal conditions cause high treating effect, are adapted to industrial applications.

The invention has the advantages that：

The present invention is using Porphyra yezoensis cultivation lace curtaining of the acid treatment with miscellaneous algae Enteromorpha, removing Enteromorpha (making frond dead) The growth of Porphyra yezoensis is not influenceed, its is simple to operate, technique is simple, and processing time is short, method effectively, can improve Porphyra yezoensis Yield and quality, improve the economic benefit of seaweed industry；Specially：

, only need to be by the Porphyra yezoensis cultivation lace curtaining leaching with miscellaneous algae Enteromorpha in practical operation of the present invention 1. operating process is simple Bubble a period of time in acid solution.

2. wide, either hydrochloric acid, sulfuric acid, or phosphoric acid in process of the present invention are selected, in the acid that pH is 1.0 or 2.0 A period of time is handled in solution, you can make Enteromorpha dead without influenceing the growth of Porphyra yezoensis；And the acid solution used can Recycling, the acid solution pH for treating cultivation lace curtaining changes and little, can reuse.

3. the time of saving and cost, the cultivation lace curtaining processing 30s-2min in pH is 1.0 acid solution, are 2.0 in pH Lace curtaining processing 3-10min is cultivated in acid solution, you can make Enteromorpha dead without influenceing the growth of Porphyra yezoensis.

Brief description of the drawings

Fig. 1 is that the photosynthetic activity after Enteromorpha provided in an embodiment of the present invention is handled through the hydrochloric acid solutions of pH 1.0 changes, R (recovery) the recovery figure in nature seawater is represented after frond acid treatment for a period of time.

Fig. 2 is that the photosynthetic activity after Porphyra yezoensis provided in an embodiment of the present invention is handled through the hydrochloric acid solutions of pH 1.0 changes Figure.

Fig. 3 is the photosynthetic activity variation diagram after Enteromorpha provided in an embodiment of the present invention is handled through the hydrochloric acid solutions of pH 2.0.

Fig. 4 is that the photosynthetic activity after Porphyra yezoensis provided in an embodiment of the present invention is handled through the hydrochloric acid solutions of pH 2.0 changes Figure.

Fig. 5 is the photosynthetic activity variation diagram after Enteromorpha provided in an embodiment of the present invention is handled through the hydrochloric acid solutions of pH 3.0.

Fig. 6 is that the photosynthetic activity after Porphyra yezoensis provided in an embodiment of the present invention is handled through the hydrochloric acid solutions of pH 3.0 changes Figure.

Fig. 7 is the photosynthetic activity variation diagram after Enteromorpha provided in an embodiment of the present invention is handled through the hydrochloric acid solutions of pH 4.0.

Fig. 8 is that the photosynthetic activity after Porphyra yezoensis provided in an embodiment of the present invention is handled through the hydrochloric acid solutions of pH 4.0 changes Figure.

Fig. 9 is photosynthetic activity variation diagram of the Enteromorpha provided in an embodiment of the present invention after the sulfuric acid solutions of pH 1.0.

Figure 10 is the photosynthetic activity variation diagram after Enteromorpha provided in an embodiment of the present invention is handled through the phosphoric acid solutions of pH 1.0.

Figure 11 is photosynthetic activity change of the Porphyra yezoensis provided in an embodiment of the present invention after the sulfuric acid solutions of pH 1.0 Figure.

Figure 12 is that the photosynthetic activity after Porphyra yezoensis provided in an embodiment of the present invention is handled through the phosphoric acid solutions of pH 1.0 changes Figure.

Figure 13 is photosynthetic activity variation diagram of the Enteromorpha provided in an embodiment of the present invention after the sulfuric acid solutions of pH 2.0.

Figure 14 is the photosynthetic activity variation diagram after Enteromorpha provided in an embodiment of the present invention is handled through the phosphoric acid solutions of pH 2.0.

Figure 15 is photosynthetic activity change of the Porphyra yezoensis provided in an embodiment of the present invention after the sulfuric acid solutions of pH 2.0 Figure.

Figure 16 is that the photosynthetic activity after Porphyra yezoensis provided in an embodiment of the present invention is handled through the phosphoric acid solutions of pH 2.0 changes Figure.

Embodiment

With reference to specific embodiment, the present invention is expanded on further.It should be understood that these embodiments are merely to illustrate the present invention Rather than limitation the scope of the present invention.In addition, it is to be understood that after present disclosure has been read, those skilled in the art can To be made various changes or modifications to the present invention, these equivalent form of values equally fall within limited range of the present invention.

Embodiment 1, hydrochloric acid solution processing Enteromorpha and Porphyra yezoensis that pH is 1.0,2.0,3.0 and 4.0

It is 1.0,2.0,3.0 and 4.0 with pH meter regulation pH 1. adding concentrated hydrochloric acid in nature seawater.

2. the good Enteromorpha of growth conditions and Porphyra yezoensis are placed in the hydrochloric acid that pH is 1.0, determined using Dual-PAM Photosynthetic parameters.About 30s, the F of Enteromorpha frond_v/F_m0 is reduced to, frond is taken out and is placed on progress recovery 1 day in nature seawater, Its photosynthetic activity can not recover.After Porphyra yezoensis processing 120s, F_v/F_m0.40 or so is down to, is now recovered 1 day, the photosynthetic work of frond Property can be recovered；Handle 210s, F_v/F_m0.20 or so is down to, after now recovering 1 day, frond can not recover to normal level (ginseng See Fig. 1 and 2).

From above-mentioned Fig. 1 and 2, pH 1.0 hydrochloric acid solution processing frond 30s to 120s, Enteromorpha can be made dead, together When do not influence the growth of Porphyra yezoensis.

3. Enteromorpha and Porphyra yezoensis are placed in the hydrochloric acid that pH is 2.0, photosynthetic parameters are determined using Dual-PAM.About 3min, the F of Enteromorpha frond_v/F_m0 is reduced to, frond is taken out and is placed on progress recovery 1 day and 3 days, its photosynthetic work in nature seawater Property can not be recovered.Porphyra yezoensis processing 3min (F_v/F_mBe down to 0.35), processing 5min (F_v/F_mBe down to 0.30), processing 10min (F_v/F_mIt is down to 0.20), recovers 1 day, frond photosynthetic activity can recover；Handle 15min, F_v/F_mLess than 0.10 is down to, this After Shi Huifu 1 day and 3 days, frond can not recover to normal level (referring to Fig. 3 and 4).

Frond 3min-10min is handled from above-mentioned Fig. 3 and 4, pH 2.0 hydrochloric acid solution, Enteromorpha can be made dead, together When do not influence the growth of Porphyra yezoensis.

4. Enteromorpha and Porphyra yezoensis are placed in the hydrochloric acid that pH is 3.0, photosynthetic parameters are determined using Dual-PAM.About 20min, the F of Enteromorpha frond_v/F_mValue be less than 0.1, be placed in nature seawater carry out recover 1 day, its photosynthetic activity can not Recover to normal level.Porphyra yezoensis processing 20min (F_v/F_mIt is down to 0.25), recovers 1 day, frond photosynthetic activity can recover； Handle 30min, F_v/F_mLess than 0.10 is down to, after now recovering 1 day and 3 days, frond can not recover to normal level (referring to Fig. 5 With 6).

Frond 20min is handled from above-mentioned Fig. 5 and 6, pH 3.0 hydrochloric acid solution, Enteromorpha can be caused dead, and not shadow Ring Porphyra yezoensis growth.But it is due to that processing time is longer, cost increase is not suitable for the removing of miscellaneous algae Enteromorpha.

5. Enteromorpha and Porphyra yezoensis are placed in the hydrochloric acid that pH is 4.0, photosynthetic parameters are determined using Dual-PAM.About 120min, the F of Enteromorpha frond_v/F_mValue is compared with the control without significant difference, and the value conspicuousnesses of Y II decline, and are placed on nature Recover 1 day in seawater, Y II recovers to normal level.Porphyra yezoensis processing 120min (F_v/F_mIt is down to less than 0.20), Y II declines To less than 0.10, recover 1 day, frond photosynthetic activity can recover (referring to Fig. 7 and 8).

It is not notable to the treatment effect of Enteromorpha from above-mentioned Fig. 7 and 8, pH 4.0 hydrochloric acid solution, it is not suitable for miscellaneous algae The removing of Enteromorpha.

Embodiment 2, pH handles Enteromorpha and Porphyra yezoensis for 1.0 sulfuric acid solution and phosphoric acid solution

It is 1.0 with pH meter regulation pH 1. adding the concentrated sulfuric acid and concentrated phosphoric acid respectively in nature seawater.

2. Enteromorpha is respectively placed in the sulfuric acid solution and phosphoric acid solution that pH is 1.0, photosynthetic work is determined using Dual-PAM With parameter, photosynthetic parameters F is treated_v/F_m(about 30s) takes out when being reduced to 0, is placed in nature seawater and recovers, its photochemical vitality can not Recover (referring to Fig. 9 and 10).

From above-mentioned Fig. 9 and 10, Enteromorpha i.e. death after pH is 1.0 acid (sulfuric acid or phosphoric acid) solution processing 30s.

3. Porphyra yezoensis is respectively placed in the sulfuric acid solution and phosphoric acid solution that pH is 1.0, light is determined using Dual-PAM Taken out after closing operational factors, processing 120s and 210s, be placed in nature seawater and recover 1 day.Handle after 120s, its photosynthetic work Property can be recovered；Handle 210s, its photosynthetic activity can not return to normal level (referring to Figure 11 and 12).

From above-mentioned Figure 11 and 12, Porphyra yezoensis after pH 1.0 acid (sulfuric acid or phosphoric acid) solution processing 120s again Recovered, its photosynthetic activity can recover.

Embodiment 3, pH handles Enteromorpha and Porphyra yezoensis for 2.0 sulfuric acid and phosphoric acid solution

It is 2.0 with pH meter regulation pH 1. adding the concentrated sulfuric acid and concentrated phosphoric acid respectively in nature seawater.

2. Enteromorpha is respectively placed in the sulfuric acid solution and phosphoric acid solution that pH is 2.0, photosynthetic work is determined using Dual-PAM With parameter, photosynthetic parameters F is treated_v/F_m(about 3min) takes out when being reduced to 0, is placed in nature seawater and recovers 1 day and 3 days.Recovery is handled Photosynthetic parameters are determined using Dual-PAM afterwards, it is found that Enteromorpha recovers 3 days in nature seawater, its photochemical vitality Still irrecoverable (referring to Figure 13 and 14).

From above-mentioned Figure 13 and 14, Enteromorpha is i.e. dead after pH is 2.0 acid (sulfuric acid or phosphoric acid) solution processing 3min Die.

3. Porphyra yezoensis is respectively placed in the sulfuric acid solution and phosphoric acid solution that pH is 2.0, light is determined using Dual-PAM Close operational factors, processing 3min (F_v/F_mAbout 0.35) and 5min (F_v/F_mAbout 0.30) after take out, be placed in extensive in nature seawater It is multiple 1 day.No matter Porphyra yezoensis is handled in 3min or 5min in acid solution, can be recovered after recovering 1 day to normal level (ginseng See Figure 15 and 16).

From above-mentioned Figure 15 and 16, Porphyra yezoensis after pH 2.0 acid (sulfuric acid or phosphoric acid) solution processing 5min again Recovered, its photosynthetic activity can recover.

The present invention removes Enteromorpha without influenceing streak purple using Porphyra yezoensis cultivation lace curtaining of the acid treatment with miscellaneous algae Enteromorpha The growth of dish.Easy to operate, technique is simple, and processing time is short, and cost is low, improves the yield and quality of Porphyra yezoensis.

It is above the description to the embodiment of the present invention, by the foregoing description of the disclosed embodiments, makes this area special Industry technical staff can realize or using the present invention.A variety of modifications to these embodiments come to those skilled in the art Say and will be apparent, generic principles defined herein can not depart from the situation of the spirit or scope of the present invention Under, realize in other embodiments.Therefore, the present invention is not intended to be limited to the embodiments shown herein, but to accord with Close the most wide scope consistent with features of novelty with principles disclosed herein.

Claims (5)

1. a kind of method for removing miscellaneous algae Enteromorpha on cultivation lace curtaining, it is characterised in that：There is the Porphyra yezoensis of miscellaneous algae Enteromorpha by growing nonparasitically upon another plant Lace curtaining, which is placed in acid solution, to be soaked, and is placed in nature seawater and is recovered again afterwards, Enteromorpha is removed, and the streak on lace curtaining Seaweed is grown.

2. the method according to claim 1 for removing miscellaneous algae Enteromorpha on cultivation lace curtaining, it is characterised in that：The acid solution PH is 1.0-2.0；Soak time is 30s-10min.

3. the method according to claim 2 for removing miscellaneous algae Enteromorpha on cultivation lace curtaining, it is characterised in that：The acid solution PH is 1.0 or 2.0.

4. the method for miscellaneous algae Enteromorpha on the removing cultivation lace curtaining according to Claims 2 or 3, it is characterised in that：The immersion In pH in 1.0 acid solution, the immersion treatment time is 30s-120s；

In pH in 2.0 acid solution, the immersion treatment time is 3min-10min.

5. the method according to claim 1 for removing miscellaneous algae Enteromorpha on cultivation lace curtaining, it is characterised in that：The acid is salt One kind in acid, sulfuric acid and phosphoric acid.