Establishment of an in vitro Tissue Culture and Rapid Propagation System using Lonicera hypoglauca and Content Assessment of Total Flavonoids and Chlorogenic Acid

Lonicera hypoglauca is a traditional Chinese medicinal plant.In this study,the tender young leaves of L.hypoglauca were used for the first time as the explants to establish a rapid in vitro propagation and regeneration system.The results revealed that the optimal time for disinfection of the explants was 8 min and the optimal medium for callus induction was MS+2,4-D 4.0 mg·L^(-1)+sucrose 30 g·L^(-1),with an average callus induction rate of 86.67%.The optimal medium to induce differentiation of callus to bud was MS+6-BA 1.0 mg·L^(-1)+NAA 0.10 mg·L^(-1)+sucrose 30 g·L^(-1),with an average germination rate of 83.33%.The optimal medium to induce multiplication was MS+6-BA 1.5 mg·L^(-1)+NAA 0.05 mg·L^(-1)+sucrose 30 g·L^(-1),with a multiplication coefficient of 5.42.The optimal medium for root induction was 1/2 MS+NAA 0.15 mg·L^(-1)+activated carbon 0.3 g·L^(-1)+sucrose 15 g·L^(-1),with an average rooting rate of 91.11%.The survival rate of tissue-cultured seedlings in nutrient soil cultivation medium was as high as 100%.The total flavonoid content and chlorogenic acid content in the explant,callus tissue and regenerated plant were 1.83%,2.27%,1.33%and 2.77%,1.83%,1.74%respectively.This study provides novel insights into the rapid propagation and mass production of L.hypoglauca seedlings at an industrial scale and that it exhibits important application value and future prospects.

Rapid Propagation of Chirita ophiopogoides in Vitro

A method for in vitro culture and rapid propagation of Chirita ophio- pogoides was developed using leaves as explants in this study, The results indicat- ed that the medium MS＋6-BA 0.1 mg/L＋NAA 0.1 mg/L was suitable for bud induc- tion and seedling regeneration from leaves in primary culture. The media MS＋0.5 mg/L 6-BA＋0,1 mg/L NAA＋10% banana＋5% potato and MS＋0.5 mg/L 6-BA＋0.5 mg/L NAA＋2% banana were very suitable for callus multiplication and seedling hardening in subculture, and the proliferation coefficients were 7,9 and 5.6 per 60 d respec- tively. The optimal rooting medium was MS and the rooting rate was 100% on day 30 of culture. The rooted plantlets of C. ophiopogoides were transplanted in green- house with humus soil and 92.5% survived. Theoretically, using the rapid propaga- tion system, about 20 176 seedlings can be reproduced from a sterile plantlet in a year.

Sterile Germination of the Hybrid Seeds of [Den. Burana Green Star × Den. Rainbow-compactum] and Rapid Propagation of F_1 Plantlets via Tissue Culture

[Objective] This study was to germinate the hybrid seeds of [Den.Burana Green Star × Den.Rainbow-compactum] under aseptic condition and to explore the parameters for rapid propagation of F1 plantlets via tissue culture.[Method]Hybridization between Den.Burana Green Star（female parent）and Den.Rainbow-compactum（male parent）was performed and the in vitro culture and proliferation of F1 hybrids were studied using eight different basic media including MS,1/2MS,1/3MS,1/4MS,B5,N6,modified Knudson and H.[Result]Improved Knudson medium appended with 1.0 mg/L 6-BA,1.0 mg/L NAA and 10% mature banana puree performed best in F1 seed germination under aseptic condition,as well as the rapid propagation of protocorm-like body.Of all the eight media tested,1/2MS is the medium most suitable for the in vitro rapid propagation of the F1 seedlings.Efficiency of eight media in the in vitro rapid propagation was in order 1/2 MS MS1/3 MS1/4 MS ≈N6 improved Knudson ≈B5H.NAA presented better rooting and growth-promoting effect in the in vitro rapid propagation of the F1 seedlings than IBA.And the optimal NAA concentration to recommend from our experiment results was 2.0 mg/L.[Conclusion]Our experimental results provided mature method and important technological information for hybrid breeding dendrobium.

Embryo culture and rapid propagation of Syringa

Embryo of lilacs (Syringa L) culture in vitro and the rapid propagation were studied. The orthogonal experiments, in-cluding the selection of basal medium, embryo age and other factors such as sugar, benzyladenine (BA), naphthalene acetic acid (NAA) and glutamine (Gln), were carried out. The results indicated that the optimal medium for embryo culture was Monnier medium supplemented with NAA (0.001 mgL-1), BA (0.1 mgL-1), sugar (50 gL-1), and Gln (400 mgL-1), with a germination rate of 91.7% at least; the optimal embryo age was 50 d; and Gln had significant effects on the germination rate of embryo. Moreover, the optimal medium for subculture was MS+BA (2 mgL-1)+NAA (0.001 mgL-1)+Gln (0.5 mgL-1), with the propaga-tion coefficient of 3.6 at least.

Aseptic Seedling and Rapid Propagation of Ludisia discolor

[Objective] This study was conducted to establish a system for aseptic seeding and rapid propagation of a wild Chinese herbal medicine Ludisia discolor. [Method] The seeds of L. discolor were germinated in four different culture media MS, 1/2MS, Hyponex No.1 （3.0 g/L）, and 1/2 Hyponex No.1 （1.5 g/L）, and the ger- mination rate was calculated 80 d later to select the optimal medium for seed ger- mination of L. discolor. Then, by culturing the protocorms and buds of L. discolor in the media supplemented with different hormone combinations （6-BA and NAA） or organic substrates （potato juice, banana juice and coconut milk）, the optimal medi- um compositions for multiplication and .differentiation, seedling hardening and rooting of L. discolor were respectively determined. [Result] After 80 d of dark culture, 86.67% of the seeds inoculated into the medium 1/2 Hyponex No.1 germinated and developed into protocorms, proving 1/2 Hyponex No.1 was most suitable for seed germination of L. discolor among the four basic media, while MS medium had the worst effects. In culture medium of 1/2 Hyponex No.1＋2.0 mg/L 6-BA＋100 ml/L co- conut milk supplemented with 0.4 or 0.6 mg/L NAA, a mixed body of protocorms and small buds were induced after being cultured for 45 d, and the multiplication rate was 6.11, which was higher than that in the medium supplied with 0.2 or 0.8 mg/L NAA. By adding 10% potato juice, 10% banana juice or 100 ml/L coconut milk into Hyponex No.1＋1.0 mg/L NAA, it was found that 10% banana juice had better effects in hardening and rooting of L. discolor planlets than 10% potato juice and 100 ml/L coconut milk. The small buds grew into plantlets about 80 d later in the medium with banana juice, the rooting rate was 93.33%, and the plantlet height was 7.19 cm. After hardening-culture for 10 d in a greenhouse, the L. discolor plantlets were transplanted into the mixed matrix of peat soil and lava （at a ratio of 3：1）, and 91.7% of them survived 60 d later. [Conclusion] A relatively perfect propa- gation system of L. discolor was established by using aseptic seeds as explants in this study, which can be used for the protection of L. discolor germplasm resources, seedling propagation and industrial development.

In vitro Rapid Propagation of Ficus carica L.‘Masui Dauphine’

In this study, Ficus carica L. ‘Masui Dauphine＇ was used as the experi- mental material to investigate the effects of explant type, basal medium, hormone types and concentrations on in vitro rapid propagation of‘Masui Dauphine＇. Accord- ing to the results, the most suitable explants for in vitro rapid propagation of ‘Masui Dauphine＇ were axillary buds and the best medium was modified MS ＋ 1.0 mg/L 6-BA ＋ 0. 05 mg/L NAA ＋ 1.0 mg/L GA3 ＋ 20 mg/L sucrose ＋ 7 mg/L agar, pH 5.8. This study provided scientific basis for barge-scale cultivation of‘Masui Dauphine ＇.

Study on Virus-free Culture and Rapid Propagation Technology of Xiangshu Series Varieties of Sweet Potato

[Objective] Sweet potato virus disease had a significant harm to the yield and quality of sweet potato, directly causing the degradation of sweet potato vari- eties and even the harvest failure. Therefore, the detection and removal of sweet potato virus and the establishment of rapid propagation method of sweet potato is of great significance to ensure the stable inheritance of excellent characters of sweet potato, prevent the spread of sweet potato virus and develop sweet potato industry. [Method] With Xiangshu series varieties of sweet potato, Xiangshu 15 and Xiangshu 19 as the research materials, a virus-free culture program was established for meristem tip apex tissue culture of different cultivars, and a rapid propagation method was developed for virus-free seedlings. [Result｜ On the basis of analysis on seedling emergence rate, the optimal addition scheme of plant hormones in the MS culture medium of Xiangshu 15 was 6-BA 3.0 mg/L ＋ NAA 1.0 mg/L, and the opti- mal plant hormone addition scheme for Xiangshu 19 was 6-BA 2.0 mg/L ＋ NAA 0.67 mg/L Under the developed rapid propagation system, the annual reproductive coefficient was up to 49 152, far higher than that （20 000） in field. IConclusionl Based on the actual production, combined with the meristem tip apex tissue culture, a comprehensive prevention and control measure was put forward, which included virus detection, early warning, removal and virus-free seedlings breeding, tt was of great strategic significance to improve the yield and quality of high-quality sweet potato and ensure the healthy development of sweet potato industry in China.

Mechanism of internal thermal runaway propagation in blade batteries

Blade batteries are extensively used in electric vehicles,but unavoidable thermal runaway is an inherent threat to their safe use.This study experimentally investigated the mechanism underlying thermal runaway propagation within a blade battery by using a nail to trigger thermal runaway and thermocouples to track its propagation inside a cell.The results showed that the internal thermal runaway could propagate for up to 272 s,which is comparable to that of a traditional battery module.The velocity of the thermal runaway propagation fluctuated between 1 and 8 mm s^(-1),depending on both the electrolyte content and high-temperature gas diffusion.In the early stages of thermal runaway,the electrolyte participated in the reaction,which intensified the thermal runaway and accelerated its propagation.As the battery temperature increased,the electrolyte evaporated,which attenuated the acceleration effect.Gas diffusion affected thermal runaway propagation through both heat transfer and mass transfer.The experimental results indicated that gas diffusion accelerated the velocity of thermal runaway propagation by 36.84%.We used a 1D mathematical model and confirmed that convective heat transfer induced by gas diffusion increased the velocity of thermal runaway propagation by 5.46%-17.06%.Finally,the temperature rate curve was analyzed,and a three-stage mechanism for internal thermal runaway propagation was proposed.In Stage I,convective heat transfer from electrolyte evaporation locally increased the temperature to 100℃.In Stage II,solid heat transfer locally increases the temperature to trigger thermal runaway.In StageⅢ,thermal runaway sharply increases the local temperature.The proposed mechanism sheds light on the internal thermal runaway propagation of blade batteries and offers valuable insights into safety considerations for future design.

The Rapid Propagation and Domestication of Wild Bletilla striata

The research explored rapid multiplication on Bletilla striata and the re- suits showed that the medium of MS＋2.5 mg/L6-BA＋0.2 mg/L NAA performed the best in induction, with induction rate at 98%; the medium with MS＋IAA2.5mg/L＋ 2.5 mg/L6-BA＋2.0 mg/L NAA was the best in terms of induction and multiplication; the medium with 1/2MS＋0.01 mg/L NAA 1＋0.01 mg/L IAA promoted rooting.The harden- ing temperature was the optimal at 23℃-28 ℃ and relative humidity of 80%-90% the best.

Effect of Different Plant Growth Regulators on Callus Induction and in vitro Rapid Propagation of Wild Petunia Juss.

In this study,the seeds of wild Petunia Juss.were used as explants to investigate the optimal condition for tissue culture.Several different kinds and concentrations of growth regulators were adopted to produce more multiple bud clumps,callus or roots in this study.The experiments may provide experimental foundation for the rapid propagation technology and establishment of tissue culture system for wild Petunia Juss.

Numerical modeling of fracture propagation of supercritical CO_(2)compound fracturing

The exploitation of shale gas is promising due to depletion of the conventional energy and intensification of the greenhouse effect.In this paper,we proposed a heat-fluid-solid coupling damage model of supercritical CO_(2)(SC-CO_(2))compound fracturing which is expected to be an efficient and environmentally friendly way to develop shale gas.The coupling model is solved by the finite element method,and the results are in good agreement with the analytical solutions and fracturing experiments.Based on this model,the fracture propagation characteristics at the two stages of compound fracturing are studied and the influence of pressurization rate,in situ stress,bedding angle,and other factors are considered.The results show that at the SC-CO_(2)fracturing stage,a lower pressurization rate is conducive to formation of the branches around main fractures,while a higher pressurization rate inhibits formation of the branches around main fractures and promotes formation of the main fractures.Both bedding and in situ stress play a dominant role in the fracture propagation.When the in situ stress ratio(δ_(x)/δ_(y))is 1,the presence of bedding can reduce the initiation pressure and failure pressure.Nevertheless,it will cause the fracture to propagate along the bedding direction,reducing the fracture complexity.In rocks without bedding,hydraulic fracturing has the lengthening and widening effects for SC-CO_(2)induced fracture.In shale,fractures induced at the hydraulic fracturing stage are more likely to be dominated by in situ stresses and have a shorter reorientation radius.Therefore,fracture branches propagating along the maximum principal stress direction may be generated around the main fractures induced by SC-CO_(2)at the hydraulic fracturing stage.When the branches converge with the main fractures,fracture zones are easily formed,and thus the fracture complexity and damage area can be significantly increased.The results are instructive for the design and application of SC-CO_(2)compound fracturing.

Tissue Culture Rapid Propagation and Transplantation Techniques of Anoectochilus roxburghii (Wall) Lind.

[Objectives]To screen the tissue culture rapid propagation formula suitable for each tissue culture stage of Anoectochilus roxburghii( Wall) Lind. [Methods] The stem segments of Fujian A. roxburghii were used as explant to study the tissue culture rapid propagation and transplantation techniques. The comparative experiment was carried out to study the effects of different hormone concentrations on the induction of stem segments,proliferation of cluster buds,rooting and seedling hardening of A. roxburghii,and study the effects of transplantation matrix on the transplantation of A. roxburghii. [Results]MS + 0. 5 mg/L NAA + 2 mg/L BA + 20 g/L sucrose + 6 g/L agar was suitable for induction of stem segments of A. roxburghii; MS + 0. 5 mg/L NAA + 2 mg/L BA + 1 mg/L KT + 25 g/L sucrose + 6 g/L agar was most suitable for proliferation of cluster buds of A. roxburghii; MS + 1. 0 mg/L IBA + 1. 0 mg/L NAA + 1 g/L activated carbon + 50 g/L mashed banana + 25 g/L sucrose + 6 g/L agar was most suitable for rooting and seedling hardening of A. roxburghii; using peat soil: fine sand( 3∶ 1) as transplantation matrix,the survival rate was the highest. [Conclusions] The experiment results are expected to provide references for factory production of A. roxburghii.

Heat transfer enhanced inorganic phase change material compositing carbon nanotubes for battery thermal management and thermal runaway propagation mitigation

Developing technologies that can be applied simultaneously in battery thermal management(BTM)and thermal runaway(TR)mitigation is significant to improving the safety of lithium-ion battery systems.Inorganic phase change material(PCM)with nonflammability has the potential to achieve this dual function.This study proposed an encapsulated inorganic phase change material(EPCM)with a heat transfer enhancement for battery systems,where Na_(2)HPO_(4)·12H_(2)O was used as the core PCM encapsulated by silica and the additive of carbon nanotube(CNT)was applied to enhance the thermal conductivity.The microstructure and thermal properties of the EPCM/CNT were analyzed by a series of characterization tests.Two different incorporating methods of CNT were compared and the proper CNT adding amount was also studied.After preparation,the battery thermal management performance and TR propagation mitigation effects of EPCM/CNT were further investigated on the battery modules.The experimental results of thermal management tests showed that EPCM/CNT not only slowed down the temperature rising of the module but also improved the temperature uniformity during normal operation.The peak battery temperature decreased from 76℃to 61.2℃at 2 C discharge rate and the temperature difference was controlled below 3℃.Moreover,the results of TR propagation tests demonstrated that nonflammable EPCM/CNT with good heat absorption could work as a TR barrier,which exhibited effective mitigation on TR and TR propagation.The trigger time of three cells was successfully delayed by 129,474 and 551 s,respectively and the propagation intervals were greatly extended as well.

Sterile Germination of Dendrobium chrysotoxum Seeds and Rapid Propagation of Its Plantlets

[Objective] This study was to produce plant seeds on a large scale via sterile germination of the capsules of Dendrobium chrysotoxum and rapid propagation technique.[Method] A large amount of protocorm-like bodies produced from the sterile germination of D.chrysotoxum capsules,were transferred to four different kinds of bud induction media to obtain the optimal media suitable for plantlet differentiation and growth;and then with N6 as basic medium,1.0,1.5 and 2.0 mg/L of NAA and IAA were tested to obtain the optimal media suitable for rooting.[Results] On the medium of MS appended with 1 mg/L 6-BA ＋10% banana puree ＋ 20 g/L sucrose ＋6 g/L agar＋1 g/L AC,seed germination rate was up to 90%.The optimal medium for differentiation of D.chrysotoxum protocorm-like bodies was N6＋ 2 mg/L NAA ＋ 0.5 mg/L 6-BA ＋10% banana puree ＋ 20 g/L sucrose ＋ 0.5 g/L peptone ＋ 5.8 g/L agar ＋0.5 g/L AC,grown from which the plantlets were even and orderly in height;and the optimal medium for rooting was N6＋1.5 mg/L NAA ＋10% banana puree ＋ 20 g/L sucrose ＋ 5.8 g/L agar ＋1 g/L AC,grown from which the plantlets developed more,robust and orderly roots,and their leaves were in dark green color.[Conclusion] Our results provided reference for the rapid propagation of D.chrysotoxum.

Tissue Culture and Rapid Propagation of Spathiphyllum kochii Engl. et Krause

[Objectives] This study was conducted on tissue-culture rapid propagation techniques of Spathiphyllum kochii Engl. et Krause. [Methods] With lateral buds of S. kochii as explants, the effects of such four basic media as MS, B5, Nitsch and Wpm and the ratio of two hormones(1, 2, 3 mg/L 6-BA and 0.1, 0.3, 0.5 mg/L NAA) on bud proliferation of S. kochii were studied by the complete test method, and the effect of the ratio of the two hormones(0.25, 0.50, 1.00 mg/L NAA and 1.0, 1.5 mg/L IBA) on rooting of S. kochii as well as the effect of substrate ratio(perlite and peat soil at 1∶9, 2∶8, 3∶7, 4∶6 and 5∶5) on its transplanting survival rate were also studied. [Results] The best basic medium for the rapid propagation of S. kochii was MS. The best hormone ratio suitable for bud proliferation was 2 mg/L6-BA+0.1 mg/L NAA, and the average number of buds proliferated at 45 d was 3.04. The average bud height was 2.05 cm; the most suitable medium for rooting was 1/2 MS+1 mg/L IBA+0.25 mg/L NAA, and its rooting rate was 100%; and the best transplanting substrate was 5∶5 perlite and peat. The soil ratio had a survival rate of 94%. [Conclusions] This study provides a theoretical basis for the improvement of the transplanting survival rate of test-tube S. kochii plantlets.

Tissue Culture and Rapid Propagation of Pedicels of Hemerocallis hybrida

[ Objective] This study aimed to develop tissue culture and rapid propagation methods for pedicels of HemerocaUis hybrida. [ Method] Tender pedicels of dwarf H. hybrida were used as experimental materials to sdect callus induction, subculture and rooting media for rapid propagation of H. hybrida.[ Result ] MS ＋ 2.0 - 3.0 mg/L 6-BA ＋ 0.2 - 0.3 mg/L NAA, MS ＋ 1.0 - 2.0 mg/L 6-BA ＋ 0.1 - 0.2 mg/L NAA, MS and 1/2MS ＋ 0.2 mg/L NAA were the appropriate me- dium for callus induction, subculture and rooting, respectively. [ Conclusion] The in vitro culture and clustered seedling rooting technology used in this study are effective methods for rapid propagation of H. hybrida, which provide technieal reference for industrialized production of H. hybrida.

Impact Analysis of Microscopic Defect Types on the Macroscopic Crack Propagation in Sintered Silver Nanoparticles

Sintered silver nanoparticles(AgNPs)arewidely used in high-power electronics due to their exceptional properties.However,the material reliability is significantly affected by various microscopic defects.In this work,the three primary micro-defect types at potential stress concentrations in sintered AgNPs are identified,categorized,and quantified.Molecular dynamics(MD)simulations are employed to observe the failure evolution of different microscopic defects.The dominant mechanisms responsible for this evolution are dislocation nucleation and dislocation motion.At the same time,this paper clarifies the quantitative relationship between the tensile strain amount and the failure mechanism transitions of the three defect types by defining key strain points.The impact of defect types on the failure process is also discussed.Furthermore,traction-separation curves extracted from microscopic defect evolutions serve as a bridge to connect the macro-scale model.The validity of the crack propagation model is confirmed through tensile tests.Finally,we thoroughly analyze how micro-defect types influence macro-crack propagation and attempt to find supporting evidence from the MD model.Our findings provide a multi-perspective reference for the reliability analysis of sintered AgNPs.

Establishment of a Rapid Propagation Protocol of GLRaV-3,GFKV,and GRSPa Free Grapevine Rootstocks

Nursery plant propagation by grafting has been widely used in modern viticulture to minimize the damage caused by biotic and abiotic stresses.In grapevine(Vitis spp.),an effective way to control disease damage is to provide producers and growers with pathogen-free stock plants.In this study,five grapevine rootstock varieties,‘SO4’,‘101-14’,‘5BB’,‘110R’and‘1103P’,were selected as explants to establish an in vitro culture protocol,and three species of grapevine viruses were tested by real-time RT-PCR.The results showed that MS medium supplemented with 0.2 mg/L IBA,1.0 mg/L 6-BA,0.5 mg/L KT,4.0 mg/L adenine for culture initiation,and WPM supplemented with 0.2 mg/L IBA for subculture were suitable for all five rootstock varieties,with multiplication coefficients ranging from 1.6 to 4.4.Virus testing showed that single RT-PCR was more effective for detecting the three viruses compared to double or triple RT-PCR.Only plantlets free from the aforementioned viruses were retained for subculture.Plantlets were hardened at room temperature under natural lighting in Hoagland solution for 2 weeks and transplanted to pots filled with mixed media in a greenhouse.This protocol is applicable for rapid propagation of the five grapevine rootstock varieties and can be used for commercial production of virus-free grapevine stocks.

Rapid Propagation of Virus-free Sugarcane Plantlets via Temporary Immersion Bioreactor System

By employing temporary immersion bioreactor system(TIBs),we studied virus-free culture of seedlings from sugarcane varieties ROC16 and ROC22,from medium recipe,inoculation amount,sucrose concentration,and variety difference. The results showed,using this method,that proliferation rate of ROC16 improved by 40 times,per flask generated about 800 plantlets; of ROC22 improved by 30 times,per flask generated about 400-600 plantlets. The results provided basis for using TIBs in rapid propagation of plantlets via tissue culture.

Robust autofocusing propagation in turbulence

Turbulence in complex environments such as the atmosphere and biological media has always been a great challenge to the application of beam propagation in optical communication, optical trapping and manipulation. To overcome this challenge, this study comprehensively investigates the robust propagation of traditional Gaussian and autofocusing beams in turbulent environments. In order to select stable beams that exhibit high intensity and high field gradient at the focal position in complex environments, Kolmogorov turbulence theory is used to simulate the propagation of beams in atmospheric turbulence based on the multi-phase screen method. We systematically analyze the intensity fluctuations, the variation of the coherence factor and the change in the scintillation index with propagation distance. The analysis reveals that the intensity fluctuations of autofocusing beams are significantly smaller than those of Gaussian beams, and the coherence of autofocusing beams is better than that of Gaussian beams under turbulence. Moreover, autofocusing beams exhibit less oscillation than Gaussian beams, indicating that autofocusing beams propagate in complex environments with less distortion and intensity fluctuation. Overall, this work clearly demonstrates that autofocusing beams exhibit higher stability in propagation compared with Gaussian beams, showing great promise for applications such as optical trapping and manipulation in complex environments.