Greenhouse cultivation in northern China has the characteristic of single mode, and the intercropping mode is not common. Greenhouse intercropping of green asparagus (Asparagus officinalis Linn) and coriander (Cori...Greenhouse cultivation in northern China has the characteristic of single mode, and the intercropping mode is not common. Greenhouse intercropping of green asparagus (Asparagus officinalis Linn) and coriander (Coriandrum sativurn L.) not only could increase vegetable kinds, but also could improve cropping index, and the asparagus growers' income could also be improved. This paper introduced the intercropping technique of green asparagus and coriander, so as to provide technical support for large-area extension of greenhouse green asparagus cultivation and break the situation of single mode for .qreenhouse cultivation.展开更多
Fungal pathogen of asparagus stem blight was isolated. No significant genetic difference was detected among the three strains with 492 bp long ITS1-5.8S-ITS2 sequence. It was then identified through colony growth, con...Fungal pathogen of asparagus stem blight was isolated. No significant genetic difference was detected among the three strains with 492 bp long ITS1-5.8S-ITS2 sequence. It was then identified through colony growth, conidia morphology, and molecular characterization. The physiological response to oxidation and osmosis stress, and virulence to Asparagus officinalis L. were analyzed. The results showed that the pathogen causing asparagus stem blight for A. officinalis L. in Jiangxi Province is Phomopsis asparagri (Sacc.) Bubák. Under pure culture conditions, the conidia were oval-shaped (α-type), with colorless single spore and single nucleus, containing 0-2 oil balls. Its vegetative growth rate was higher when cultured on 0.2 × potato dextrose agar (0.2 × PDA) medium than that on oatmeal agar (OA) medium. However, the pycnidia appeared earlier on OA medium than on 0.2 earlier PDA medium. The vegetative growth rate was depressed under oxidation (H2O2) or osmosis (NaCl) stress conditions, and totally inhibited under 7 mmol/L H2O2 or 2.4 mol/L NaCl. All the strains caused typical pathogenic symptoms to Asparagus officinalis L. at 7 days-post-inoculation (dpi) with conidia.展开更多
An Asparagus officinalis L. cultivar NJ978 was used to study the growing rate, salt ion content and mineral ion uptake and distribution in plants under salt stress. The results showed that salt stress significantly in...An Asparagus officinalis L. cultivar NJ978 was used to study the growing rate, salt ion content and mineral ion uptake and distribution in plants under salt stress. The results showed that salt stress significantly inhibited seedling growth and there was a negative relationship between seedling growth and salt concentration. The seedlings growth showed no significant decrease under low salt stress (NaCl≤50 mmol/L), while high concentrations of NaCl led to detrimental effects on the growth of A. officinalis L.. With the increase of NaCl concentration, the Na + content increased gradually in A. officinalis L. roots, stems and leaves while the K^+ and Ca^2+ contents had slow decreases. Under low salt stress, the seedlings of A. officinalis L. could prevent Na + from transporting to aerial part by withholding Na + in root, which could keep the balance of ions in aerial part, but under high salt stress (NaCl 〉 100 mmol/L), the aerial part of seedlings accumulated superabundance of Na +, which limited the uptake of K^+ and Ca^2+ , so seedlings were damaged heavily, which manifested as the gradual decrease of K^+/Na + and Ca^2+ /Na + in the roots and aerial part of the seedlings. The selective absorption of K^+, Ca^2+ and Na + (AS K,Na and AS Ca,Na ) was significantly increased with increased salinity, while the selective transportation (TS K,Na and TS Ca,Na ) increased at first and then decreased with the increased salinity. Therefore, the strong ability of salt exclusion and the regionalized distribution of ions in roots, stems and leaves could be one of the salt tolerance mechanisms of A. officinalis L.展开更多
This study explored the medium for new variety of Asparagus——Linlu No.1 to induce germination, bud proliferation,and induce rootings and their formula. The result revealed that MS+6-BA 1.0 mg/L+NAA 0.05 mg/L is the ...This study explored the medium for new variety of Asparagus——Linlu No.1 to induce germination, bud proliferation,and induce rootings and their formula. The result revealed that MS+6-BA 1.0 mg/L+NAA 0.05 mg/L is the suitable medium for germination; MS+6-BA 0.5 mg/L+NAA 0.5 mg/L is the medium fit for bud proliferation and 1/2MS+IBA 0.5 mg/L+KT 0.05 mg/L+sucrose 30 g/L is the perfect medium for rootings.展开更多
Asparagus officinalis L.is favored by its high health function,but its hybrid seeds are expensive.The amount of seed,seed plumpness and germination rate are related to the production costs of breeding enterprises and ...Asparagus officinalis L.is favored by its high health function,but its hybrid seeds are expensive.The amount of seed,seed plumpness and germination rate are related to the production costs of breeding enterprises and large growers.Therefore,it is necessary to investigate the seed number and thousand kernel weight of A.officinalis L.This study developed a quick and accurate method to measure the seed number and thousand kernel weight of A.officinalis L.using image processing technology.Seed sample of A.officinalis L.was scanned with 200 dpi resolution,and the seed number was then obtained using Image-ProPlus software.After weighing the seeds,thousand kernel weight was finally calculated.By recording‘macro’,the batch processing of the samples can also be realized.This method is simple and accurate,and can greatly save the time of investigation.展开更多
文摘Greenhouse cultivation in northern China has the characteristic of single mode, and the intercropping mode is not common. Greenhouse intercropping of green asparagus (Asparagus officinalis Linn) and coriander (Coriandrum sativurn L.) not only could increase vegetable kinds, but also could improve cropping index, and the asparagus growers' income could also be improved. This paper introduced the intercropping technique of green asparagus and coriander, so as to provide technical support for large-area extension of greenhouse green asparagus cultivation and break the situation of single mode for .qreenhouse cultivation.
文摘Fungal pathogen of asparagus stem blight was isolated. No significant genetic difference was detected among the three strains with 492 bp long ITS1-5.8S-ITS2 sequence. It was then identified through colony growth, conidia morphology, and molecular characterization. The physiological response to oxidation and osmosis stress, and virulence to Asparagus officinalis L. were analyzed. The results showed that the pathogen causing asparagus stem blight for A. officinalis L. in Jiangxi Province is Phomopsis asparagri (Sacc.) Bubák. Under pure culture conditions, the conidia were oval-shaped (α-type), with colorless single spore and single nucleus, containing 0-2 oil balls. Its vegetative growth rate was higher when cultured on 0.2 × potato dextrose agar (0.2 × PDA) medium than that on oatmeal agar (OA) medium. However, the pycnidia appeared earlier on OA medium than on 0.2 earlier PDA medium. The vegetative growth rate was depressed under oxidation (H2O2) or osmosis (NaCl) stress conditions, and totally inhibited under 7 mmol/L H2O2 or 2.4 mol/L NaCl. All the strains caused typical pathogenic symptoms to Asparagus officinalis L. at 7 days-post-inoculation (dpi) with conidia.
基金Supported by the Science and Technology Support Program of Hebei Province(17226913D)the Project for Innovation of Hebei Province(F17R07)
文摘An Asparagus officinalis L. cultivar NJ978 was used to study the growing rate, salt ion content and mineral ion uptake and distribution in plants under salt stress. The results showed that salt stress significantly inhibited seedling growth and there was a negative relationship between seedling growth and salt concentration. The seedlings growth showed no significant decrease under low salt stress (NaCl≤50 mmol/L), while high concentrations of NaCl led to detrimental effects on the growth of A. officinalis L.. With the increase of NaCl concentration, the Na + content increased gradually in A. officinalis L. roots, stems and leaves while the K^+ and Ca^2+ contents had slow decreases. Under low salt stress, the seedlings of A. officinalis L. could prevent Na + from transporting to aerial part by withholding Na + in root, which could keep the balance of ions in aerial part, but under high salt stress (NaCl 〉 100 mmol/L), the aerial part of seedlings accumulated superabundance of Na +, which limited the uptake of K^+ and Ca^2+ , so seedlings were damaged heavily, which manifested as the gradual decrease of K^+/Na + and Ca^2+ /Na + in the roots and aerial part of the seedlings. The selective absorption of K^+, Ca^2+ and Na + (AS K,Na and AS Ca,Na ) was significantly increased with increased salinity, while the selective transportation (TS K,Na and TS Ca,Na ) increased at first and then decreased with the increased salinity. Therefore, the strong ability of salt exclusion and the regionalized distribution of ions in roots, stems and leaves could be one of the salt tolerance mechanisms of A. officinalis L.
文摘This study explored the medium for new variety of Asparagus——Linlu No.1 to induce germination, bud proliferation,and induce rootings and their formula. The result revealed that MS+6-BA 1.0 mg/L+NAA 0.05 mg/L is the suitable medium for germination; MS+6-BA 0.5 mg/L+NAA 0.5 mg/L is the medium fit for bud proliferation and 1/2MS+IBA 0.5 mg/L+KT 0.05 mg/L+sucrose 30 g/L is the perfect medium for rootings.
基金Modern Agricultural Industry Technology System Project(CARS-23-G-05)Modern Agricultural Science and Technology Innovation Project of Hebei Academy of Agriculture and Forestry Sciences(2019-3-2-1)the Third Batch of"Giant Plan"Vegetable Scientific Research and Innovation Team Project in Hebei Province.
文摘Asparagus officinalis L.is favored by its high health function,but its hybrid seeds are expensive.The amount of seed,seed plumpness and germination rate are related to the production costs of breeding enterprises and large growers.Therefore,it is necessary to investigate the seed number and thousand kernel weight of A.officinalis L.This study developed a quick and accurate method to measure the seed number and thousand kernel weight of A.officinalis L.using image processing technology.Seed sample of A.officinalis L.was scanned with 200 dpi resolution,and the seed number was then obtained using Image-ProPlus software.After weighing the seeds,thousand kernel weight was finally calculated.By recording‘macro’,the batch processing of the samples can also be realized.This method is simple and accurate,and can greatly save the time of investigation.
