China Vegetables
  
中国蔬菜
·Online Submission
·Manuscript Tracking
·Peer Review
·Editor Work
·Office Work
·Editor-in-chief
·Current Issue
·Archive
·Browse by section
·Hot Paper
·Volumn Content
·Read Articles
·Download Articles
·
Adv Search
More>>
 
  Current Issue
 
2014 Vol.1 Issue.7,Published 2014-07-01
1
ZHENG Hua-Mei, GAO Zhong-Qiang
2014 Vol. 1 (7): 1- [Abstract] ( 383 ) [HTML 1KB] [ PDF 1345KB] ( 915 )
4 Research Progress on Shipping and Storage Techniques of Vegetable Seedlings
ZHANG Xiao-Fei, QU Mei, TIAN Yong-Qiang, GAO Li-Hong

With the development of seedling industry, shipping and storage of vegetable seedlings becomes
an essential part of seedling production.Seedling quality before shipping,management and control level during
storage are the 2 important factors influencing seedling quality after shipping and storage.This paper summarized
the present studies on keeping good commercial seedlings during storage and transportation from the following 2
aspects:the cultivation and management techniques of strong seedling before shipping,and the management and
control techniques during storage.The paper also analyzed the existing problems in storage and transportation of
vegetable seedlings.
2014 Vol. 1 (7): 4- [Abstract] ( 512 ) [HTML 1KB] [ PDF 1563KB] ( 703 )
12 Research Progress on Causes of Salt Accumulation in Substrate Culture
XIONG Jing, CHEN Qing, LIU Wei
As a high yielding and high efficient cultivation method,substrate culture also has some
shortcomings such as physiological disorder,yield decline and quality losses,causes by salt accumulation in
rhizosphere.This paper made a comprehensive analysis on the factors causing salt accumulation in rhizosphere in
substrate culture,including environment,nutrient solution,properties of nutrient ions and substrate types,etc.
This paper also prospected the future research orientation.
2014 Vol. 1 (7): 12- [Abstract] ( 467 ) [HTML 1KB] [ PDF 1692KB] ( 713 )
18 Effects of Different Substrate Water Contents in Hardening Period on Pepper
Seedling Quality during Storage and Transportation
YANG Tian, LI Juan-Qi, PAN Xiao-Bing, QU Mei, TIAN Yong-Qiang, GAO Li-Hong, CHEN Qing-Yun
In order to investigate the suitable substrate water content in the hardening period during storage
and transportation of pepper(Capsicum annuum L. ) seedlings,this experiment studied the effects of relative
water contents in different substrates( 25%-35%,40%-50%,55%-65% and 70%-80%) in the hardening
period on the change rule of main morphological and physiological indices of pepper seedlings under different
storage time periods( 0,2,4,6 d),and the recovery ability of pepper seedlings after transplanting.The results
show that for short term( 2 d) storage,the appropriate relative water contents of substrate for seedlings during
hardening period has a wide range( 40%-80%).For medium-term( 4 d) and long-term( 6 d) storage,the
suitable relative water content in substrate should be controlled between 70% to 80% during the hardening period
.The results of correlation and path analyses suggest that the single index suitable for evaluating pepper seedling
quality during storage and transportation is leaf integrity index,while the composite index is the stem diameter +
2.723 leaf chlorophyll content -1.235 root dry weight.
2014 Vol. 1 (7): 18- [Abstract] ( 497 ) [HTML 1KB] [ PDF 1663KB] ( 627 )
23 Effects of Catch Wheat,Lime Nitrogen Degassing and Straw Reactor Landfill on
Cucumber Growth and Root Zoon Soil Enzyme Activity in Solar Greenhouse
WANG Zhe-Xin, WU Feng-Zhi, XIAO Wan-Li, ZHOU Xin-Gang
Taking field trial,during July to August,we used catch wheat,lime nitrogen degassing and
straw reactor landfill treatments to study their effects on cucumber(Cucumis sativus L. ) growth,yield and root
zoon urease,alkaline phosphatase,sucrase and catalase activities in 6 years and 8 years continuous cropping in
greenhouse. The result indicated that compairing with the conventional fallow contrast,each treatment had played
certain promoting effect on cucumber growth,catch wheat and lime nitrogen degassing had more obvious effect.
Catch wheat could significantly increase the activities of soil urease,sucrase and catalase. Lime nitrogen degassing
and straw reactor landfill treatments could increase the activities of soil sucrase and catalase,while suppress the
soil urease and alkaline phosphatase activities at the same time. Planting wheat during fallowing season in summer
can easily improve soil fertility with ideal effect.
2014 Vol. 1 (7): 23- [Abstract] ( 566 ) [HTML 1KB] [ PDF 2026KB] ( 939 )
29 Effects of Light Quality and Photoperiod on Growth and Total Phenolics Content
of Soybean Sprouts
QI Xue-Hui, ZHANG Xiao-Yan, LU Yan-Wu, CUI Jin
Abstract:Light emitting diode(LED)was applied to accurately modulate light spectral energy distribution.
The effects of light quality and photoperiod on the growth,total phenolics content and DPPH scavenging activity of
soybean(Glycine max)sprouts were studied.The results of light quality test indicated that hypocotyl length and
edible rate were significantly decreased by UV-B,which was favorable for water accumulation in plant.Every
light treatment significantly increased the content of total phenolics in hypocotyls.The total phenolics content
reached the max under UV-B treatment,and was much higher than that in the darkness and other light treatment.
Under UV-B treatment,the DPPH scavenging activity in hypocotyls and cotyledon of soybean sprouts reached
the max,and was significantly higher than that of the darkness.The photoperiod test showed that the root length
reached the max and the hypocotyl length reached the min when the photoperiod was 8 h·d-1 under UV-B.The
total phenolics content and DPPH scavenging activity were significantly decreased by 8 h·d-1,12 h·d-1 UV-B
treatment,and were much higher than that in the darkness and other light treatment.Overall,8 h·d-1 UV-B
treatment was more beneficial for the the total phenolics content and the DPPH scavenging activity of soybean
sprouts.
2014 Vol. 1 (7): 29- [Abstract] ( 499 ) [HTML 1KB] [ PDF 1947KB] ( 992 )
35 Effects of Arbuscular Mycorrhizal Fungi and PGPR Combination Agents on
Growth and Defense Enzyme Activity of Cucumber under Low Temperature
Stress
HAN Ya-Nan, LIU Run-Jin, LI Min
In order to select the best combination of arbuscular mycorrhizal(AM) fungi and plant growthpromoting
rhizobacteria(PGPR) for cucumber( Cucumis sativus)to resist low-temperature damages,we
studied the effects of different combinations on growth and defense enzymes in greenhouse under low temperature
stress conditions. The results showed that the growth of cucumber and SOD,POD,CAT activities were higher
than that of the non-vaccinated control,while MDA content was significantly lower than that of the controls,
when inoculation with AM fungi or PGPR under low temperature treatments. Between the AM fungi inoculation
treatments,Glomus versiforme had better positive effect on growth,defensive enzyme activities,and decreased
the cell membrane damage. Between the PGPR inoculation treatments,Paenibacillus polymyxa had better growth
and higher defensive enzyme activities,with less cell membrane damage. Among the inoculation treatments with
AM fungi and PGPR ,inoculation treatment with both Glomus versiforme and Paenibacillas polymyxa had the
best growth,highest defensive enzyme activities,minimum cell membrane damage. Hence,we would suggest
to add this combination in greenhouse cucumber production to promote cucumber growth and improve plant cold
resistance.
2014 Vol. 1 (7): 35- [Abstract] ( 498 ) [HTML 1KB] [ PDF 1732KB] ( 592 )
40 Effects of Arbuscular Mycorrhizal Fungi on Mineral Element Absorption and
Nutrient Quality of Asparagus in Plastic Tunnel
YU 二Min, LI Cong, HE Chao-Xing
Effects of inoculation of arbuscular mycorrihizal fungi Glomus mosseae(GM)on biomass,
mineral element absorption and nutrient quality of asparagus(Asparagus officialis L.)in plastic tunnel.The
results showed that the fresh weight of GM inoculated plant increased by 45.57% than non-inoculated control,and
the dry matter weight of GM inoculated plant increased by 29.65%.GM inoculation obviously increases the content
of chlorophyll and carotenoids in asparagus cladophyll and strengthens the root activity.The absorption abilities for
N,P,K,Mg,Mn,Cu in inoculated asparagus are also increased.The contents of rutin and saponins in GM
inoculated asparagus are significantly increased than the control.
2014 Vol. 1 (7): 40- [Abstract] ( 493 ) [HTML 1KB] [ PDF 1514KB] ( 474 )
43 Studies on Effect of Tomato Nutrition Substrate Cultivation with Different Size of
Cultivation Bag
LI Fang, MA Yan, SUN Zhou-Ping, SHEN Xiang-Jun
Taking‘ Weiman 83-06’ tomato( Solanum lycopersicum L.)cultivar as test materials,and nonwoven
fabric as tomato nutrient substrate cultivation bag,this paper studies the effects of 3 different size cultivation
bags〔 32 cm×25 cm(G1),55 cm×32 cm(G1),60 cm×25 cm(G3)〕of non-woven fabric on tomato plant
growth,fruit yield and tomato quality. The results showed that under the experiment condition,the optimal
cultivation bag was non-woven bag with 32 cm×25 cm,in which one tomato seedling per bag was planted.The dry
weight of above-ground and under-ground ,the average fruit weight and yield per plant of G1 treatment were higher
than that of G2 and G3 treatments. The fruit quality of G1 treatment is better than that of G2 and G3 treatments.
2014 Vol. 1 (7): 43- [Abstract] ( 405 ) [HTML 1KB] [ PDF 1649KB] ( 451 )
47 A New Tomato F1 Hybrid—‘Dongnong 723’
JIANG Jing-Bin, XU Xiang-Yang, KANG Li-Gong, ZHANG He, WANG Ao-Xue, CHEN Xiu-Ling, LI Jing-Fu
‘Dongnong 723’ is a new mid-maturing tomato F1 hybrid,developed by crossing 09811 as female
parent and 09817 as male parent. It is highly resistant to ToMV,leaf mold,Fusarium wilt and Verticillium wilt. The
fruit is of medium size. The average single fruit weight is 90-120 g. There are 8-10 fruits per ear. It can be harvested
by cluster picking . Its matured fruit is golden yellow in color,of ovoid shape with smooth peel. The average firmness
is 0.57 kg·cm-2. It is tolerant to storage and transportation. Its shelf life is over 30 days. The average yield is 180-
225 t·hm-2 in protected fields. It is suitable for cultivation in protected fields all over China.
2014 Vol. 1 (7): 47- [Abstract] ( 448 ) [HTML 1KB] [ PDF 1535KB] ( 532 )
49 A New Tomato F1 Hybrid—‘Weikefen No.3’
LIU Jian-Min, 吕Jin-Fu , QIAO Ning, LIU Xiao-Ming, LI Mei-Qin, WANG Xing-Cui
Weikefen No.3’ is a new tomato F1 hybrid developed by crossing H10A as female parent and J10211 as
male parent. It is early maturing. It takes only about 75 days from planting to fruit ripening. Its plant grows vigorously,
and belongs to infinite growth type. It has continuous fruit setting ability. The first inflorescence sits at 6 to 7 nodes of
the main vine. Its fruit is tall and round in shape with even pink color. The single fruit weight is 230-250 g. It can yield
over195 t·hm-2. Its fruit has strong rigidity,spreading sepals,super commercial performance,and good taste. Its VC
content is 256 mg·kg-1. It has stronger resistance to tomato yellow leaf curl virus,blight,leaf mold than‘ Mengzhifen’.
It is suitable to be cultivated in greenhouse in early spring,late autumn and over winter.
2014 Vol. 1 (7): 49- [Abstract] ( 482 ) [HTML 1KB] [ PDF 1517KB] ( 654 )
52 A New Hot Pepper F1 Hybrid—‘Yulongjiao’
ZHANG Xin-Hui, LIU Hui-Qin, LI Chao-Sen, XIANG Xiao-Min, GUO Qin-Wei, ZHAO Dong-Feng, JIANG Xiao-Hong
Yulongjiao’ is an early maturing hot pepper F1 hybrid developed by crossing inbred line 05B11
as female parent and inbred line Y801 as male parent. Its fruit is of cavel shape. Its matured fruit is white yellow in
color with good commercial quality. The peel of ripe fruit is red. It tastes middium hot,and the VC content is 81.9
mg·kg-1.The fruit is 15-16 cm in length,about 2.2 cm in width,and 0.2 cm in fruit-wall thickness. The single
fruit weight is 19-20 g. Its yield is about 39 t·hm-2. Its resistance to virus disease and blight is stranger than that
of the contrast‘ Tainonghuangjiao’. It is suitable for early spring and later autumn cultivation in greenhouse and in
hilly lands of Zhejiang Province.
2014 Vol. 1 (7): 52- [Abstract] ( 443 ) [HTML 1KB] [ PDF 1501KB] ( 484 )
54 A New Spring White Radish— ‘Xuedan No.3’
YUAN Wei-Ling, GAN Cai-Xia, WANG Qing-Fang, CUI Lei, MEI Shi-Yong
‘Xuedan No.3’ is a new spring white radish variety bred by applying double-haploid technology.
The female parent ED0108A is a male sterile line bred from crossing a double haploid‘ Meihuachunluobo’ and
‘Baiyuchunluobo’.The male parent ED3128 is a double haploid line bred by crossing radish‘ Chihuachunluobo’
and‘ Tianhongchunluobo’. It can be harvested in 60 days after sowing. The expansion of the plant is 45 cm,and
it has pinnatifid leaves and 11 pairs of leaflet. The root is long and cylindrical with white skin and flesh. The root is
36 cm in length and 7.1 cm in diameter. The single root weight is 1.1 kg. It is highly resistant to black rot,cucumber
mosaic virus,cauliflower mosaic virus. It is resistant to downy miledw. Its population uniformity is high. It
can yield 60-75 t·hm-2. It is suitable to be cultivated in early spring in Hubei,Hunan,Henan and Shangdong
Provinces.
2014 Vol. 1 (7): 54- [Abstract] ( 450 ) [HTML 1KB] [ PDF 1575KB] ( 500 )
57
FENG Jie-Ming, HAO Dong-Sheng, WANG Xiang-Yu
2014 Vol. 1 (7): 57- [Abstract] ( 344 ) [HTML 1KB] [ PDF 2398KB] ( 619 )
60
NONG Ye-Bu-Zhong-Zhi-Ye-Guan-Li-Si
2014 Vol. 1 (7): 60- [Abstract] ( 335 ) [HTML 1KB] [ PDF 1369KB] ( 412 )
61
ZHANG Yu-Xi
2014 Vol. 1 (7): 61- [Abstract] ( 277 ) [HTML 1KB] [ PDF 1544KB] ( 361 )
64
LI Bao-Ju, ZHAO Qian, WU Lan-Ping, CHAI A-Li
2014 Vol. 1 (7): 64- [Abstract] ( 274 ) [HTML 1KB] [ PDF 1614KB] ( 946 )
67
CHEN Qi-Bing
2014 Vol. 1 (7): 67- [Abstract] ( 284 ) [HTML 1KB] [ PDF 1732KB] ( 456 )
69
ZHENG Jian-Qiu, WANG Xiao-Qing, HU Bin, SUN Hai, LI Yun-Long, ZHENG Xiang, WANG Kai-Ge, SHENG Fu-Jing
2014 Vol. 1 (7): 69- [Abstract] ( 265 ) [HTML 1KB] [ PDF 1852KB] ( 749 )
71
DI He-Sheng, LIU Xue-Fang, WANG Feng-E, JIANG Wei-Jie
2014 Vol. 1 (7): 71- [Abstract] ( 283 ) [HTML 1KB] [ PDF 1567KB] ( 818 )
74
LIANG Xin-Shu, HAN  Long, WANG Xiao-Zhuo, GAO Yi-Nan, HUANG Jian, ZHANG Zhen-Xian, GAO Li-Hong
2014 Vol. 1 (7): 74- [Abstract] ( 311 ) [HTML 1KB] [ PDF 1313KB] ( 649 )
77
LUO Hong-Yi, QU Bao-Long, DU Hong, LI Guo-Jing, WANG Qi
2014 Vol. 1 (7): 77- [Abstract] ( 274 ) [HTML 1KB] [ PDF 1530KB] ( 527 )
80
WANG Qing, XIANG Yang, DONG Jia, CAI Juan, GAO Li-Hong, TIAN Yong-Qiang
2014 Vol. 1 (7): 80- [Abstract] ( 290 ) [HTML 1KB] [ PDF 1983KB] ( 533 )
82
YAO Shu-Juan, LI Hai-Yan, XIAO  Yu, HUANG Ya-Jie, ZHANG Xiu-Ju
2014 Vol. 1 (7): 82- [Abstract] ( 281 ) [HTML 1KB] [ PDF 1629KB] ( 417 )
84
DING Ming-Yuan, LIU Hua, LIANG Shun-You, BAI Tian-Jiang
2014 Vol. 1 (7): 84- [Abstract] ( 339 ) [HTML 1KB] [ PDF 1745KB] ( 451 )
87
ZHANG Yang-Yong, ZHUANG Mu, SUN Shi-Xian
2014 Vol. 1 (7): 87- [Abstract] ( 327 ) [HTML 1KB] [ PDF 1345KB] ( 566 )
89
LIU Xiao-Bo, PAN Guang-Hui, ZHONG Jian-Guo, RU Xue-Juan, YANG Qi-Feng
2014 Vol. 1 (7): 89- [Abstract] ( 393 ) [HTML 1KB] [ PDF 1636KB] ( 330 )
91
WANG Ting-Xi
2014 Vol. 1 (7): 91- [Abstract] ( 316 ) [HTML 1KB] [ PDF 1692KB] ( 444 )
China Vegetables
·
·
·
·
·
·
·
·
·
·
·
·
·
·
More>>
中国蔬菜
   Copyright © 2011
China Vegetables		 Address: the haidian district of Beijing zhongguancun south street, number 12 zip
code:100081 Tel:010-82109550 E-mail:zgsc@mail.caas.net.cn