Prevalence and transmission of antimicrobial resistance among <Emphasis Type="Italic">Aeromonas</Emphasis> populations from a duckweed aquaculture based hospital sewage water recycling system in Bangladesh

In order to investigate the influence of a duckweed aquaculture based hospital sewage water recycling plant on the prevalence and dissemination of antibiotic resistance, we made use of an existing collection of 1,315 Aeromonas isolates that were previously typed by the biochemical fingerprinting PhP-AE system. In these treatment plant, hospital raw sewage water is first collected in a settlement pond (referred to as sewage water in this study) and is then transferred to a lagoon, where the duckweed (Lemnaceae) is grown (referred to as lagoon). The duckweed is harvested and used as feed for the fish in a separate pond (referred to as fish pond). From this collection, representatives of 288 PhP types were subjected to antibiotic susceptibility testing for eight antimicrobials by broth microdilution method. The overall resistance rates among Aeromonas isolates from the treatment plant were highest for ampicillin (87%) and erythromycin (79%) followed by cephalothin (58%), nalidixic acid (52%), streptomycin (51%), tetracycline (31%), chloramphenicol (13%) and gentamicin (8%). A significantly lower prevalence of antibiotic resistance was found in Aeromonas from environmental control water, patient stool samples, duckweed and fish compared to sewage water isolates. The prevalence of resistance in the sewage water was not significantly reduced compared to the lagoon water and fish pond. Throughout the treatment system, the frequencies of resistant strains were found to diminish during the sewage water purification process, i.e. in the lagoon where sewage water is used to grow the duckweed. However, the frequency of resistant strains again increased in the fish pond where sewage grown duckweed is used for aquaculture. Among the selected isolates, two multiresistant clonal groups of Aeromonas caviae HG4 were identified that exhibited indistinguishable PhP and amplified fragment length polymorphism fingerprints and shared a common plasmid of approximately 5 kb. Representatives of both groups were recovered from almost every part of the sewage treatment plant but not in the control ponds nor in human samples, which suggests that specific multiresistant Aeromonas clones are able to persist and spread throughout the entire purification process.     

A simple procedure for the isolation of streptomycin resistant plants in Solanaceae

A system has been developed for rapid selection of streptomycin resistant mutants, as adventitious shoots arising from explants of several Solanaceous species. Efficient mutagenesis was achieved by incubating shoot culture-derived leaf strips with 1 or 5 mM nitroso-methylurea, for 90 or 120 min. In Nicotiana tabacum and Lycopersicon peruvianum these treatments resulted in white or variegated adventitious shoots from up to 3.5% of explants placed on medium promoting shoot regeneration. Chlorophyll deficiencies were only observed very rarely in Solanum nigrum. Streptomycin resistant shoots were obtained from leaf explants placed on medium containing 500 mg l^-1 streptomycin sulphate, under which conditions explants are bleached and adventitious shoot development suppressed. Green adventitious s shoots appeared at a frequency dependent both on the mutagenic treatment and on the species. The best response was with S. nigrum where >70% of the explants produced streptomycin resistant shoots, most of which retained their resistance on subsequent testing. Maternal inheritance of streptomycin resistance has been confirmed for several N. tabacum and S. nigrum mutants, and there is also evidence for paternal transmission in the latter species. The procedure has been successfully extended to other species, including N. sylvestris and N. plumbaginifolia, and also to obtain spectinomycin resistant mutants.Communicated by R. Hagemann     

A role of mulberry leaves in improving resistance to virus‐mediated disease in Allomyrina dichotoma

The purpose of this study was to develop a safe and effective method for preventing Allomyrina dichotoma nudivirus (AdNV) infection in the Korean horned beetle, Allomyrina dichotoma, found on the farms in the Republic of Korea. Mulberry leaf powder was added to fermented oak sawdust to minimize mortality in AdNV‐infected A. dichotoma. Mulberry leaves were found to contain 1‐deoxynojirimycin, which has anti‐inflammatory, antiviral, and anti‐tumor effects. Based on the proposed antiviral effects of mulberry leaves, a feed of fermented sawdust combined with 1% or 5% mulberry leaf powder was fed to AdNV‐infected second or third stage A. dichotoma larvae. The larval mortality rate was recorded over 10 weeks. The second and third instar larvae that were fed with the sawdust mixture with 5% mulberry leaf powder had mortality rates of 60% and 30%, respectively. In contrast, the control group that was fed with the sawdust without mulberry leaf powder had a mortality rate of 100%. Also, we confirmed that AdNV was not detected in the experimental group that was subjected to an outdoor application test for 8 months with mulberry leaf powder treatment. A reduced mortality rate after treatment with 1% mulberry leaf powder was observed in the field application. In addition, a comparison of the control colony and mulberry leaf treated group showed a statistical difference in growth of larvae at various states, and demonstrated the efficiency of mulberry leaf powder combined with fermented sawdust for treatment of AdNV‐ infected A. dichotoma.     

侵蚀退化地植被恢复过程中芒萁对土壤可溶性有机碳的影响

林下植被是生态系统的重要组分。通过对比分析红壤侵蚀区植被恢复过程中,林下有无芒萁覆盖地的土壤可溶性有机碳(DOC,Dissolved Organic Carbon)含量及其与地下根系生物量、地上植被淋溶液DOC含量的关系。结果表明:林下植被芒萁覆盖增加了地上叶片和地下根系生物量,土壤DOC含量及储量也显著增加(P0.05),芒萁覆盖对表层土壤(0—20cm)DOC的影响大于深层土壤(20—100cm)(P0.05);相关分析结果表明,林下芒萁覆盖地土壤DOC储量与细根生物量的垂直变化呈显著的正相关关系(P0.05),且随植被恢复年限的增加相关性显著增加,地下根系的垂直分布直接影响各土层DOC储量。不同植被恢复时期,林下芒萁覆盖地土壤DOC与鲜叶(马尾松+芒萁)和枯落物(马尾松+芒萁)淋溶液DOC均呈显著的正相关关系(P0.01),而林下裸露地土壤DOC仅与鲜叶(马尾松)淋溶液DOC呈显著的相关性(P0.01),林下芒萁覆盖地相对于裸露地枯落物淋溶液对土壤DOC储量的影响大于鲜叶。植被恢复过程中芒萁覆盖地土壤微生物生物量碳和微生物熵显著高于林下裸露地。因此,在植被恢复进程中,芒萁能够提供更多底物参与土壤物质与养分循环,对土壤DOC的贡献较大,为侵蚀区马尾松林恢复提供了重要的养分再吸收来源;同时芒萁覆盖增加了微生物活性,促进了微生物对土壤DOC的同化作用,提高了微生物碳源的利用率,对土壤有机碳的积累起着重要的作用。     

Tomato resistance to Alternaria stem canker: localization in host genotypes and functional expression compared to non-host resistance

Summary The Alternaria stem canker resistance locus (Asc-locus), involved in resistance to the fungal pathogen Alternaria alternata f. sp. lycopersici and in insensitivity to host-specific toxins (AAL-toxins) produced by the pathogen, was genetically mapped on the tomato genome. Susceptibility and resistance were assayed by testing a segregating F₂ population for sensitivity to AAL-toxins in leaf bioassays. Linkage was observed to phenotypic markers solanifolium and sunny, both on chromosome 3. For the Asc-locus, a distance of 18 centiMorgan to solanifolium was calculated, corresponding to position 93 on chromosome 3. This map position of the resistance locus turned out to be the same in three different resistant tomato accessions, one Dutch and two American, that are at least 40 years apart. AAL-toxin sensitivity in susceptible and resistant tomato genotypes was compared with AAL-toxin sensitivity in a non-host Nicotiana tabacum during different levels of plant cell development. In susceptible and resistant tomato genotypes, inhibitory effects were demonstrated at all levels, except for leaves of resistant genotypes. However, during pollen and root development, inhibitory effects on susceptible genotypes were larger than on resistant genotypes. In the non-host Nicotiana tabacum, hardly any effects of AAL-toxins were demonstrated. Apparently, a cellular target site is present in tomato, but not in Nicotiana tabacum. It was concluded that three levels of AAL-toxin sensitivity exist: (1) a susceptible host sensitivity, (2) a resistant host sensitivity, (3) a non-host sensitivity, and that the resistance mechanism operating in tomato is different from that operating in Nicotiana tabacum.     

Imazaquin and chlorsulfuron resistance and cross resistance in mutants of Chlamydomonas reinhardtii

Summary Chlorsulfuron and/or imazaquin resistant mutants of Chlamydomonas reinhardtii strain CW15 have been obtained and shown to have actolactate synthase (ALS) with altered sensitivity to one or both of these herbicides. Herbicide resistance in the three mutants described is allelic, and resistance appears to result from a dominant or semidominant mutation in a single, nuclear gene. Imazaquin and chlorsulfuron resistant ALS from imazaquin and chlorsulfuron resistant mutants, together with single-gene Mendelian inheritance of these phenotypes, suggests that ALS is the sole site of action of the two herbicides in Chlamydomonas. A high degree of cross resistance between the two herbicides was found in only one mutant. This mutant (IM-13) was selected for resistance to imazaquin and has a high level of in vitro resistance to both imazaquin (270-fold increased I₅₀) and chlorsulfuron (900-fold increased I₅₀). In another mutant selected for resistance to imazaquin (IMR-2), hyper-sensitivity to chlorsulfuron was found. A mutant selected for resistance to chlorsulfuron (CSR-5), had a substantial degree of resistance of chlorsulfuron (80-fold increased I₅₀), but not to imazaquin (7-fold increased I₅₀).     

The mechanism of resistance to paraquat is strongly temperature dependent in resistant Hordeum leporinum Link and H. glaucum Steud.

Paraquat-resistant biotypes of the closely-related weed species Hordeum leporinum Link and H. glaucum Steud. are highly resistant to paraquat when grown during the normal winter growing season. However, when grown and treated with paraquat in summer, these biotypes are markedly less resistant to paraquat. This reduced resistance to paraquat in summer is primarily a result of increased temperature following herbicide treatment. The mechanism governing this decrease in resistance at high temperature was examined in H. leporinum. No differences were observed between susceptible and resistant biotypes in the interaction of paraquat with isolated thylakoids when assayed at 15, 25, or 35 °C. About 98 and 65% of applied paraquat was absorbed through the leaf cuticle of both biotypes at 15 and 30 °C, respectively. Following application to leaves, more herbicide was translocated in a basipetal direction in the susceptible biotype compared to the resistant biotype at 15 °C. However, at 30 °C more paraquat was translocated in a basipetal direction in the resistant biotype. Photosynthetic activity of young leaf tissue from within the leaf sheath which had not been directly exposed to paraquat was measured 24 h after treatment of plants with para. quat. This activity was inhibited in the susceptible biotype when plants were maintained at either 15 °C or 30 °C after treatment. In contrast, photosynthetic activity of such tissue of the resistant biotype was not inhibited when plants were maintained at 15 °C after treatment, but was inhibited at 30 °C. The mechanism of resistance in this biotype of H. leporinum correlates with decreased translocation of paraquat and decreased penetration to the active site. This mechanism is temperature sensitive and breaks down at higher temperatures.We are grateful to Zeneca Agrochemicals, Jealotts Hill, Berkshire, UK who provided [¹⁴C]paraquat. E.P. was supported through a Ph.D. scholarship from the Australian International Development Assistance Bureau and C.P. was the recipient of an Australian Research Council Postdoctoral Fellowship.     

Isolation of somatic hybrids by cloning Nicotiana heterokaryons in nurse cultures

Fusion of Nicotiana knightiana Goodsp. and kanamycin resistant Nicotiana sylvestris Speg. et Com. protoplasts was induced by polyethylene glycol treatment. Heterokaryons were isolated by micropipette and transferred to nurse cultures of albino cells. Colonies originating from the heterokaryons could subsequently be distinguished by their green colour. The somatic hybrid nature of four such colonies was confirmed by isoenzyme pattern, kanamycin resistance and restored morphogenic potential. An additional kanamycin resistant line with characteristic Nicotiana knightiana isoenzymes was also found indicating that the drug resistance in the kanamycin resistant parent is under cytoplasmic control.Abbreviations ADH alcohol dehydrogenase - Nk Nicotiana knightiana     

Kanamycin-resistant alfalfa has a point mutation in the 16S plastid rRNA

Genes conferring resistance to kanamycin are frequently used to obtain transgenic plants as spontaneous resistance to kanamycin is not known to exist in higher plants. Nevertheless, mutations conferring kanamycin resistance have been identified in Chlamydomonas reinhardtii, raising the question as to why kanamycin-resistant mutants have not been found in higher plants. While attempting plastid transformation of alfalfa, we obtained non-transgenic but kanamycin-resistant somatic embryos following 2 months of culture in the presence of 50 mg l^–1 kanamycin. Sequencing of the plastid DNA region corresponding to the decoding site of the 16S rRNA in ten independent resistant events revealed an A to C transversion at position 1357 of the 16S plastid rDNA, the same site at which an A to G conversion confers kanamycin resistance to C. reinhardtii by reducing the ability of the antibiotic to bind to its target site. All plants derived from the resistant embryos through additional cycles of somatic embryogenesis in the absence of kanamycin retained the mutant phenotype, suggesting that the mutation was homoplastomic. Resistant plants produced 85% less biomass than controls; their leaves were chlorotic during early development and over time slowly turned green. The absence of kanamycin- resistant mutants in higher plants might be explained by the requirement for a regeneration system capable of resulting in homoplastomic individuals, or it may be the result of the detrimental effect of the mutation on the phenotype.Communicated by C.F. Quiros     

Status and Perspectives of Clubroot Resistance Breeding in Crucifer Crops

Clubroot disease is a major threat to crops belonging to the Brassicaceae. It is controlled most effectively by the use of resistant cultivars. Plasmodiophora brassicae, the causal agent, shows a wide variation for pathogenicity, which can be displayed by using differential host sets. Except for Brassica juncea and B. carinata, resistant accessions can be found in all major crops. Most resistance sources are race-specific, despite some race-independent resistant accessions which can be found in B. oleracea. European field isolates from P. brassicae display great variation and show a tendency to overcome different resistance sources from either B. rapa or B. oleracea. At present, resistance genes from stubble turnips (B. rapa) are most effective and most widely used in resistance breeding of different Brassica crops. Resistance to P. brassicae from turnips was introduced into Chinese cabbage, oilseed rape, and B. oleracea. Although most turnips carry more than one resistance gene, the resistant cultivars from other crops received primarily a single, dominant resistance gene having a race-specific effect. Populations of P. brassicae that are compatible against most of the used resistance sources have been present in certain European areas for many decades. Such pathogen populations appeared in Japanese Chinese cabbage crops only a few years after the introduction of resistant cultivars. As the spread of virulent P. brassicae pathotypes seems to be slow, resistant cultivars are still a very effective method of control in many cropping areas. Mapping studies have revealed the presence of several clubroot-resistance genes in the Brassica A and C genomes; most of these genes are showing race specificity. Only in B. oleracea was one broad-spectrum locus detected. Two loci from the A genome confer resistance to more than one pathotype, but not to all isolates. Progress made in the determination of resistance loci should be used to formulate and introduce an improved differential set. Future efforts for breeding P. brassicae resistance will focus on durability by broadening the genetic basis of clubroot resistance by using either natural variation or transgenic strategies.     

The mechanism of microbial resistance to hexahydro-1,3,5-triethyl-s-triazine

Summary Four strains ofPseudomonas putida and two unidentifiedPseudomonas species that were resistant to hexahydro-1,3,5-triethyl-s-triazine (HHTT) were shown to be resistant to formaldehyde as well. Conjugation experiments revealed that: (a) HHTT and formaldehyde resistance was cotransferred in every case where exconjugants were recovered; (b) in every case HHTT resistance and formaldehyde resistance were expressed to the same level in the exconjugant as in the donor; (c) resistance to either HHTT or formaldehyde alone was never observed; and (d) in instances where HHTT and formaldehyde resistance in the exconjugants was unstable, the exconjugants lost resistance to both agents simultaneously and never to one agent alone. Resistant organisms (e.g.P. putida 3-T-15²) had high levels of formaldehyde dehydrogenase and this enzyme appeared to be constitutively expressed. It was concluded that resistance to HHTT was due to resistance to its degradation product, formaldehyde, via detoxification of formaldehyde by formaldehyde dehydrogenase. HHTT- and formaldehyde-sensitive organisms had barely detectable levels (most likely repressed levels) of formaldehyde dehydrogenase. Although speculative, it is possible that formaldehyde resistance may be due to a mutation resulting in derepression of the gene coding for formaldehyde dehydrogenase. While it could not be discerned whether HHTT resistance and formaldehyde resistance were carried on two separate but closely linked genes or if only one gene was involved, the evidence suggested that only one gene was involved. Similarly, it could not be determined whether HHTT and formaldehyde resistance was encoded by chromosomal or plasmid genes.     

High Efficiency Transgene Segregation in Co-Transformed Maize Plants using an Agrobacterium Tumefaciens 2 T-DNA Binary System

For regulatory issues and research purposes it would be desirable to have the ability to segregate transgenes in co-transformed maize. We have developed a highly efficient system to segregate transgenes in maize that was co-transformed using an Agrobacterium tumefaciens 2 T-DNA binary system. Three vector treatments were compared in this study; (1) a 2 T-DNA vector, where the selectable marker gene bar (confers resistance to bialaphos) and the -glucuronidase (GUS) reporter gene are on two separate T-DNA's contained on a single binary vector; (2) a mixed strain treatment, where bar and GUS are contained on single T-DNA vectors in two separate Agrobacterium strains; (3) and a single T-DNA binary vector containing both bar and GUS as control treatment. Bialaphos resistant calli were generated from 52 to 59% of inoculated immature embryos depending on treatment. A total of 93.4% of the bialaphos selected calli from the 2 T-DNA vector treatment exhibited GUS activity compared to 11.7% for the mixed strain treatment and 98.2% for the cis control vector treatment. For the 2 T-DNA vector treatment, 86.7% of the bialaphos resistant/GUS active calli produced R₀ plants exhibiting both transgenic phenotypes compared to 10% for the mixed strain treatment and 99% for the single T-DNA control vector treatment. A total of 87 Liberty herbicide (contains bialaphos as the active ingredient) resistant/GUS active R₀ events from the 2 T-DNA binary vector treatment were evaluated for phenotypic segregation of these traits in the R₁ generation. Of these R₀ events, 71.4% exhibited segregation of Liberty resistance and GUS activity in the R₁ generation. A total of 64.4% of the R₀ 2 T-DNA vector events produced Liberty sensitive/GUS active (indicating selectable-marker-free) R₁ progeny. A high frequency of phenotypic segregation was also observed using the mixed strain approach, but a low frequency of calli producing R₀ plants displaying both transgenic phenotypes makes this method less efficient. Molecular analyses were then used to confirm that the observed segregation of R₁ phenotypes were highly correlated to genetic segregation of the bar and GUS genes. A high efficiency system to segregate transgenes in co-transformed maize plants has now been demonstrated.     

Isolation of Resistance Gene Analogs in Pepper Using Modified AFLPs

An efficient technique for isolation of resistant gene analogs (RGAs) in pepper from silver stained denaturing polyacrylamide gel was developed using a modified amplified fragment length polymorphism (AFLP) strategy. Pepper DNA was digested, ligated and pre-amplified as in a normal AFLP method. The selective amplification was made by using combinations with oligonucleotide primers based on conserved motifs in and around nucleotide binding site (NBS) of known NBS-leucine-rich repeats resistance proteins from known resistant genes. The amplified products were separated by using denaturing polyacrylamide gels and silver staining instead of radioactive labelling. We isolated specific polymorphic AFLP bands directly from the gels with one round of polymerase chain reaction amplification, in order to confirm, after sequencing, that these bands have homologies with products of resistance genes described so far. Two bands (R2: 250 bp and R6: 150 bp) are particularly highlighted because they could be considered as RGAs related to resistance to Phytophthora capsici in pepper, because their sequences have a very high homology with other resistant gene analogs that have already been described. Besides, they were only detected in the resistant parent and in the bulked resistant segregants but not in the susceptible parent or susceptible F₂ segregants. We can conclude that the technique used is clean, quick and efficient for the isolation of RGAs in pepper. This revised version was published online in July 2006 with corrections to the Cover Date.     

Characterization of disease resistance gene candidates of the nucleotide binding site (NBS) type from banana and correlation of a transcriptional polymorphism with resistance to <Emphasis Type="Italic">Fusarium oxysporum</Emphasis> f.sp. <Emphasis Type="Italic">cubense</Emphasis> race 4

Most plant disease resistance (R) genes encode proteins with a nucleotide binding site and leucine-rich repeat structure (NBS-LRR). In this study, degenerate primers were used to amplify genomic NBS-type sequences from wild banana (Musa acuminata ssp. malaccensis) plants resistant to the fungal pathogen Fusarium oxysporum formae specialis (f. sp.) cubense (FOC) race 4. Five different classes of NBS-type sequences were identified and designated as resistance gene candidates (RGCs). The deduced amino acid sequences of the RGCs revealed the presence of motifs characteristic of the majority of known plant NBS-LRR resistance genes. Structural and phylogenetic analyses grouped the banana RGCs within the non-TIR (homology to Toll/interleukin-1 receptors) subclass of NBS sequences. Southern hybridization showed that each banana RGC is present in low copy number. The expression of the RGCs was assessed by RT-PCR in leaf and root tissues of plants resistant or susceptible to FOC race 4. RGC1, 3 and 5 showed a constitutive expression profile in both resistant and susceptible plants whereas no expression was detected for RGC4. Interestingly, RGC2 expression was found to be associated only to FOC race 4 resistant lines. This finding could assist in the identification of a FOC race 4 resistance gene.     

不同生境银柴胡根内生菌群落特征及其与药材主要有效成分、产量的相关性分析

【背景】银柴胡（Stellaria dichotoma var.lanceolata）具有重要的临床药用价值,其总甾醇和总黄酮含量是评价药材的关键。【目的】探究药用植物银柴胡在不同生境下根内生菌群落特征及其与药材主要成分、产量之间的关系。【方法】采用高通量测序技术和药材常规测定方法,分析了风沙土（semi-fixed aeolian sandy soil,SFA）生境、石砾质土（lithosol,LI）生境和黄绵土（loessal,LO）生境银柴胡根内生菌群落特征及其与药材性状响应关系。【结果】各生境银柴胡内生优势细菌门为放线菌门（Actinobacteriota）和变形菌门（Proteobacteria）,优势真菌门为子囊菌门（Ascomycota）和担子菌门（Basidiomycota）,而内生优势菌属因生境不同各不相同;银柴胡药材主要有效成分总甾醇和总黄酮含量在LI生境中较高,而单株干重和干鲜比在SFA生境中较高。Spearman相关性分析表明,与银柴胡药材有效成分及产量显著正相关的内生菌相对较多。综合比较,内生细菌如metagenome_g__norank_f__67-14和内生真菌如unclassified_p__Ascomycota等更为显著。【结论】与银柴胡药材关键活性成分相关的内生菌群落在种类鉴定和提取、菌种培养和次生代谢物分析等方面具有广阔的研究价值。本研究为银柴胡道地产区药材高质量产业发展提供理论参考。     

红壤侵蚀区芒萁对土壤微生物群落结构的影响

土壤微生物是反映土壤质量状况的重要指标,研究侵蚀地植被恢复后土壤微生物群落结构的变化对深入认识土壤质量的演变具有重要意义。对比分析了未治理地(Y0)、治理13年(Y13)和31年(Y31)的马尾松林(Pinus massoniana)林下芒萁(Dicranopteris dichotoma)覆盖地(NRd)、去除芒萁覆盖地(Rd)与林下裸地(CK)土壤微生物生物量和群落结构差异,结果表明:林下裸地土壤微生物生物量碳(MBC)、微生物生物量氮(MBN)和总微生物磷脂脂肪酸量(总PLFAs)的含量均显著低于芒萁覆盖地,且去除芒萁4个月后,MBC和总PLFAs均有降低趋势,表明芒萁覆盖对土壤微生物生物量具有重要影响;林下芒萁覆盖地土壤革兰氏阳性菌(GP)、革兰氏阴性菌(GN)、丛植菌根真菌(VAM)、真菌(Fungi)、放线菌(ACT)的PLFAs含量显著高于林下裸地(Y13例外),去除芒萁4个月后,各值均有有接近林下裸地的趋势;芒萁覆盖地真菌/细菌的比值(F/B)均显著高于林下裸地(P0.05),芒萁覆盖地革兰氏阳性菌/革兰氏阴性菌的比值(GP/GN)、饱和直链脂肪酸/单不饱和脂肪酸的比值(sat/mono)和(cy17:0+cy19:0ω8c)/(16:1ω7c+18:1ω7c)(cy/pre)显著小于林下裸地(P0.05),去除芒萁4个月后,芒萁覆盖地土壤cy/pre显著升高(P0.05)(Y13例外),意味着芒萁覆盖地土壤生态系统更稳定,土壤的养分可利用性更高,微生物生物量和群落结构更丰富,活性更强;皮尔逊相关分析和冗余分析发现,土壤理化性质与土壤微生物生物量和群落结构关系密切,土壤C/N、p H和氮素水平是调控芒萁覆盖下土壤微生物生物量和群落结构的主要生态因子。     

A Ser–Gly substitution in plastid-encoded photosystem II D1 protein is responsible for atrazine resistance in foxtail millet (<Emphasis Type="Italic">Setaria italica</Emphasis>)

A foxtail millet (Setaria italica L. Beauv.) line resistant to atrazine was obtained through interspecific hybridization between wild S. viridis L. Beauv. and cultivated S. italica. The resistance was proved to be controlled by a chloroplast-inherited gene and it has further been utilized in foxtail millet production. However, the sequence information of the putative atrazine resistance gene, psbA in foxtail millet’s chloroplast genome encoding photosystem II D1 protein (32 kDa thylakoid membrane protein) (photosystem Q_B protein) and the mutation site responsible for the resistance are not known. In this paper the psbA sequences of six atrazine susceptible/resistant foxtail millet varieties were obtained and compared. The results indicated that there was only one amino acid difference between susceptible and resistance gene, resulting from a single base substitution. It was concluded that a mutant allele of photosystem II protein D1 encoding a Gly residue instead of a Ser residue at position 264 is a major gene of resistance to atrazine. Moreover, the phylogenetic tree based on the psbA coding region of thirty-five plant species was carried out. The phylogenetic relationship between S. italica and other plants and the related evolutionary issues were discussed and it was suggested that psbA sequences could be used in phylogenetic studies in plants. Xiaoping Jia and Jincheng Yuan have equal contribution.     

Identification of two loci for resistance to clubroot (<Emphasis Type="Italic">Plasmodiophora brassicae</Emphasis> Woronin) in <Emphasis Type="Italic">Brassica rapa</Emphasis> L.

In an analysis of 114 F₂ individuals from a cross between clubroot-resistant and susceptible lines of Brassica rapa L., 'G004' and 'Hakusai Chukanbohon Nou 7' (A9709), respectively, we identified two loci, Crr1 and Crr2, for clubroot (caused by Plasmodiophora brassicae Woronin) resistance. Each locus segregated independently among the F₂ population, indicating that the loci reside on a different region of chromosomes or on different chromosomes. Genetic analysis showed that each locus had little effect on clubroot resistance by itself, indicating that these two loci are complementary for clubroot resistance. The resistance to clubroot was much stronger when both loci were homozygous for resistant alleles than when they were heterozygous. These results indicate that clubroot resistance in B. rapa is under oligogenic control and at least two loci are necessary for resistance.Communicated by H.C. Becker     

Survival of five wheat curl mite,Aceria tosichilla Keifer (Acari:Eriophyidae), strains on mite resistant wheat

The survival of the wheat curl mite (WCM), Aceria tosichilla Keifer, on five sources of resistant wheat (Triticum aestivum L.) was determined for collections of mites from Kansas (including a strain adapted to TAM 107), South Dakota and Texas, USA and Alberta, Canada. Sources of resistance to Aegilops squarrosa L. and Agropyron elongatum (Host) were resistant to WCMs from South Dakota and Alberta, but susceptible to WCMs from Kansas and Texas. Two wheats with resistance to rye (Secale cereale L.), PI 475772 and TAM 107, were resistant to all WCM collections except the strain from Kansas that was selected for adaptation to TAM 107. A common wheat (PI 222655) was resistant to all WCM collections except the one from Alberta, Canada. Because WCMs have overcome the resistance of TAM 107 in Kansas, the only resistance now available in commercial cultivars may be lost. Results indicate that PI222655 is the best source of resistance to replace TAM 107 in the USA but it may not be effective in Canada. Resistance to Ae. squarrosa and A. elongatum could be deployed against WCMs in Alberta and South Dakota but these sources may not be effective in Kansas and Texas. However, one WCM collection from each location may not represent the general mite population of an area. Therefore, any new sources of resistance should be evaluated fully against WCMs from areas where they are likely to be used in commercial cultivars.