大型仪器设备共享管理和成本核算探讨

苦瓜(Momordica charantia)具有丰富的营养价值和药用价值。由于耕地面积有限,苦瓜连作现象严重,根结线虫对苦瓜的为害逐年加重,严重影响苦瓜的产量和品质。针对海南省苦瓜根结线虫病的危害、传播途径、发生规律以及栽培特点,总结提出适合海南省苦瓜根结线虫病的防治对策,以期为海南苦瓜的安全生产提供技术支持。     

三种化合物处理对南方根结线虫生长发育及致病能力的影响

为明确不同浓度NH4HCO3、Cu SO4·5H2O和Fe Cl3·6H2O对南方根结线虫Meloidogyne incognita 2龄幼虫活性的影响,在盆栽条件下将化合物处理后的2龄幼虫接种番茄,通过根染色和根系冰冻切片法观察2龄幼虫的发育状况和根系内巨细胞的形成,并测定了番茄根系各生理指标的变化。结果表明,50mmol/L NH4HCO3、1.4mmol/L Cu SO4·5H2O和1.4 mmol/L Fe Cl3·6H2O处理南方根结线虫后,番茄根系内2龄、3龄及4龄幼虫数量均显著小于对照;根系内丙二醛、可溶性糖和游离氨基酸的含量均显著低于对照,根系活力显著增强;经NH4HCO3处理后,根系内巨细胞形成缓慢,14 d时出现巨型细胞空洞现象。3种化合物处理对南方根结线虫生长发育的抑制作用显著,处理后的线虫对番茄植株致病力减弱,表现为NH4HCO3抑制作用最强,Cu SO4·5H2O次之,Fe Cl3·6H2O最弱。     

海南省象耳豆根结线虫的鉴定研究

象耳豆根结线虫寄主范围广、致病力强以及能在携带Mi抗性基因的作物上寄生繁殖,是热区最具危害性的病原根结线虫种类之一。应用比较形态学,结合mt DNA序列分析、IGS序列分析和进化发育树等分子生物学方法对海南省18个市县的根结线虫进行鉴定,确定象耳豆根结线虫在蔬菜、番石榴、哈密瓜和枣树等作物上广泛发生为害,其中枣树为首次发现的象耳豆根结线虫新寄主。研究结果表明,象耳豆根结线虫已成为海南省蔬菜作物上重要的病原根结线虫种,并有进一步扩散加重为害的趋势。     

南方根结线虫被穿刺巴斯德芽菌侵染后寿命和生殖相关基因的表达变化

为了探讨南方根结线虫在植物体外被穿刺巴斯德芽菌感染后存活率的变化及感染初期线虫寿命和生殖相关基因的表达情况。首先利用单卵块孵化法对从野外采集的根结线虫进行纯化和分子鉴定。以穿刺巴斯德芽菌孢子体外吸附的南方根结线虫为材料,在显微镜下观察供试线虫的存活情况,每24 h计数一次死亡线虫的条数,总共观察12 d。在被穿刺巴斯德芽菌吸附的第3天收集根结线虫,提取线虫总RNA,采用实时荧光定量PCR检测线虫寿命相关基因cyp-33和生殖相关基因lin-45/mek-2的表达情况。结果表明：通过分子鉴定确认纯化的根结线虫为南方根结线虫;感染了穿刺巴斯德芽菌的南方根结线虫死亡率显著升高;同时在穿刺巴斯德芽菌吸附南方根结线虫的初期,线虫寿命相关基因cyp-33和生殖相关基因lin-45/mek-2的表达水平与对照组相比均下调（p<0.05）。这说明穿刺巴斯德芽菌在吸附南方根结线虫的初期能够促使线虫的存活率降低,并抑制其生殖能力,这可能与基因cyp-33、lin-45和mek-2的调控有关。     

青霉菌Snef1216发酵液诱导番茄抗南方根结线虫研究

 通过Snef1216发酵液处理番茄根系和包衣种子,研究番茄抗南方根结线虫的组织病理学变化和作用方式。结果显示:处理番茄根系且接种15 d,应答根系内根结线虫的数量减少47.5%,且巨细胞出现空泡;包衣番茄种子,接种4、8和12 d,根系内2龄幼虫分别减少54.1%、3.4%和41.7%,接种10、20和30 d,根系内2龄、3龄、4龄幼虫和雌虫的数量也均比对照组番茄明显减少。表明Snef1216发酵液诱导了番茄对南方根结线虫的抗性。     

Suppression of Meloidogyne incognita by the endophytic fungus Acremonium implicatum from tomato root galls

Specific endophytes with biocontrol potential might occur in diseased plant tissues. We isolated an endophytic fungus from tomato root galls infected with Meloidogyne incognita and identified it as Acremonium implicatum based on morphology and internal transcribed spacer sequences. Its biocontrol potential was tested in vitro and in pot and field experiments. In the in vitro test, 96.0% of second-stage juveniles of M. incognita were killed by a culture filtrate of A. implicatum after 48 h. The fungus also suppressed egg hatching, with only 36.3% of treated eggs hatching compared with 87.3% of control eggs. Pot experiments showed that A. implicatum inhibited the formation of root galls, with 40.6 galls per treated plant compared with 121.6 on control plants. A. implicatum reduced the nematode population in soil, with 151.1 nematodes per 100 g treated soil and 375.1 in control soil. Field experiments demonstrated that the root gall index of treated plants (25) was markedly lower than that of control plants (96). In conclusion, A. implicatum has excellent potential for the biocontrol of M. incognita.     

Thermal requirements and population dynamics of root‐knot nematodes on cucumber and yield losses under protected cultivation

Several studies were carried out to determine (i) thermal requirements for development, egg production and emergence of juveniles, and completion of the life cycle of Meloidogyne incognita and Meloidogyne javanica on cucumber, (ii) the maximum multiplication rate and the equilibrium density of root‐knot nematodes on cucumber and yield losses in pot and plastic greenhouse experiments, and (iii) the relationships between relative leaf chlorophyll content (RLCC) and relative cucumber dry top weight biomass (RDTWB) in relation to increasing nematode densities at planting (P_i) in pot experiments. Thermal requirements of M. incognita and M. javanica on cucumber did not differ, irrespective of the biological stage. In the pot experiments, M. javanica completed one generation. The maximum multiplication rate (a) was 833, and the equilibrium density (E) varied according to the effective inoculum densities. The relationship between RDTWB and P_i fitted the Seinhorst damage function model. The RLCC value at 40 or 50 days post‐inoculation also fitted the damage model and was related to RDTWB. In greenhouse experiments, conducted from 2009 to 2012, M. incognita completed three generations. The values for a and E were 1147 and 625 second stage juveniles (J2) per 250 cm³ soil, respectively. The tolerance limit was below zero, and the minimum relative yield ranged from 0·12 to 0·34.     

Identification of a candidate gene for resistance to root‐knot nematode in a wild peach and screening of its polymorphisms

Root‐knot nematode disease, caused by Meloidogyne species, is an important soil‐borne disease of peach (Prunus persica L.) worldwide. To identify a major locus of genetic resistance to M. incognita, PkMi, in a wild peach species, we reconstructed a linkage group in a BC₁ population of 187 lines using resistance gene analogue markers surrounding the PkMi locus. A resistance gene analogue marker, ppa021062m, co‐segregated with the PkMi locus and was therefore considered a strong candidate for PkMi. Phylogenetic analysis of the deduced protein sequences of ppa021062m, together with the other seven genes for nematode resistance, allowed ppa021062m to be assigned to the Toll/Interleukin1 Receptor‐Nucleotide Binding Site‐Leucine Rich Repeat class, similar to Ma in myrobalan plum (P. cerasifera). Comparative analysis of the candidate gene sequence in four genotypes that had different levels of resistance to root‐knot nematode disease showed that most non‐synonymous SNPs in the genic region were distributed in the TIR and NBS motifs. This study enhances our understanding of the genetic and molecular control of resistance to root‐knot nematode disease in peach.     

粉红粘帚菌代谢物对南方根结线虫卵孵化及二龄幼虫的影响

粉红粘帚菌(Gliocladium spp.)是一类对植物病原菌具有潜在生物控制作用的真菌,为了探讨粘帚菌对南方根结线虫(Meloidogyne incognita)的抑制作用,实验室条件下研究了粉红粘帚菌挥发性代谢产物和非挥发性代谢产物不同稀释度对南方根结线虫卵孵化及二龄幼虫活性的影响.结果显示非挥发性代谢产物在原液...     

Nematode resistance in bananas: screening results on some wild and cultivated accessions of Musa spp.

Bananas cultivated for export all belong to Cavendish cultivars and are all recognized as very susceptible to nematodes, particularly to the burrowing nematode Radopholus similis and the lesion nematode Pratylenchus coffeae. Even if there have been many changes in the management of banana nematodes in large commercial banana plantations, chemical control still remains most often the last resort method to manage the nematodes, although the number of registered products is definitely declining. Therefore, nematode control though genetic improvement is gaining new interest worldwide. In this study, 55 banana accessions mostly diploids from the Musa acuminata genome group (AA) but including some triploid accessions (AAA), some diploids of the Musa balbisiana genome group (BB) and some interspecific hybrids (AAB, AB) were evaluated for resistance to four nematode species R. similis, P. coffeae, Meloidogyne incognita and M. arenaria. These experiments were conducted in a growth chamber under controlled conditions. All banana accessions were susceptible to nematode species, although many different levels of susceptibility were detected. This study confirmed the good resistance status to R. similis of some cultivars from the Pisang jari buaya and Pisang batuau subgroups and the partial resistance of 17 diploid accessions significantly different from the susceptible reference cv. Grande Naine. This study also showed that 12 diploid accessions exhibited a partial resistance to P. coffeae, including some usual or potential genitors belonging to the wild diploids subspecies burmannica (cvs. Long Tavoy 1 and 2) and burmannicoides (cv. Calcutta 4). No source of resistance to Meloidogyne spp. was found. These screening results, combining for the first time four nematode species, are discussed within the scope of banana breeding in order to produce parental diploid lines with single or combined nematode resistances and further develop triploids that can substitute existing susceptible commercial cultivars.