尕海湿地退化演替过程中土壤有机氮组分的变化特征

为探究尕海湿地退化演替过程中土壤有机氮各组分变化规律,采用野外采样与室内分析相结合的方法,研究尕海湿地未退化(UD)、轻度退化(LD)、中度退化(MD)和重度退化(HD)4个退化演替阶段的土壤总氮(TN)和有机氮组分[未知态氮(HUN)、酸解氨态氮(AMN)、酸解氨基酸态氮(AAN)以及氨基糖态氮(ASN)]含量及其分布特征。结果表明: 当尕海湿地退化演替到LD时,0～10 cm层土壤TN、HUN、AMN和AAN含量分别降低17.3%、19.4%、8.6%和-5.6%,MD时分别降低28.0%、19.4%和17.1%和0,HD时分别降低35.8%、28.8%、28.6%和55.6%;10～20 cm层,LD时上述氮素含量分别降低4.0%、10.3%、2.9%和9.1%;MD时分别降低21.0%、18.3%、-2.9%和-9.1%;HD时分别降低9.9%、38.9%、21.2%和51.4%;而20～40 cm无显著变化;4个退化阶段各酸解氮组分占TN比例大小顺序为HUN(25.9%～32.5%)> AMN(6.7%～11.1%)> AAN(4.8%～11.1%)> ASN(1.2%～4.4%)。冗余分析显示,土壤含水量是土壤有机氮组分变化的主要驱动因子。尕海湿地退化显著降低了0～10 cm层土壤TN及酸解氮各组分含量,减弱了土壤氮“汇”功能,AAN和ASN对湿地退化最为敏感。     

杨树受机械损伤与光肩星天牛危害的防御性反应

杨树是我国“三北”地区防护林建设的主栽树种,自20世纪70年代以来长期受到光肩星天牛的严重危害。北抗杨对光肩星天牛有一定的抗性,但产生抗性的生化机制尚不清楚。本研究采用试剂盒法与高效液相色谱法以未受害、机械损伤、虫害北抗杨为研究材料,对其树皮和木质部中的次生代谢产物和防御酶含量进行检测,以探索其抗性机制。结果表明,北抗杨受到机械损伤和光肩星天牛危害后其反应不同:1)次生代谢产物,北抗杨受到机械损伤后,树皮中的水杨苷和白杨甙含量显著上升,槲皮苷含量降低;而受光肩星天牛危害后,树皮中的水杨苷和槲皮苷含量显著上升,白杨甙含量无显著变化。机械损伤的北抗杨木质部总酚含量高于虫害与未受害木质部,后两者间无显著差异;光肩星天牛危害的北抗杨木质部白杨甙和亚麻木酚素含量高于机械损伤木质部与未受害木质部。遭受机械损伤与虫害后北抗杨木质部的总酚苷含量显著高于未受害木质部。2)防御酶活性分析表明,与未受害北抗杨树皮相比,受到机械损伤与虫害后的树皮苯丙氨酸解氨酶(PAL)活性显著升高,但两者间无差异;受到机械损伤与虫害后的树皮超氧化物歧化酶(SOD)活性高于未受害树皮,且机械损伤树皮高于虫害树皮;北抗杨受机械损伤与虫害后木质部中的过氧化物酶(POD)活性高于未受害木质部,但两者间无差异。3)与未受害北抗杨相比,北抗杨受机械损伤、虫害后部分次生代谢物和防御酶都有不同程度的增加,推测这些物质可能与北抗杨抗逆性反应有关。     

African Swine Fever Virus MGF-110-9L-deficient Mutant Has Attenuated Virulence in Pigs

African swine fever virus(ASFV) is the etiological agent of African swine fever(ASF), an often lethal disease in domestic and wild pigs. ASF represents a major threat to the swine industry worldwide. Currently, no commercial vaccine is available because of the complexity of ASFV or biosecurity concerns. Live attenuated viruses that are naturally isolated or genetically manipulated have demonstrated reliable protection against homologous ASFV strain challenge. In the present study, a mutant ASFV strain with the deletion of ASFV MGF-110-9 L(ASFV-D9 L) was generated from a highly virulent ASFV CN/GS/2018 parental strain, a genotype II ASFV. Relative to the parental ASFV isolate, deletion of the MGF-110-9 L gene significantly decreased the ability of ASFV-D9 L to replicate in vitro in primary swine macrophage cell cultures. The majority of animals inoculated intramuscularly with a low dose of ASFV-D9 L(10 HAD50) remained clinically normal during the 21-day observational period. Three of five ASFV-D9 L-infected animals displayed low viremia titers and low virus shedding and developed a strong virus-specific antibody response, indicating partial attenuation of the ASFV-D9 L strain in pigs. The findings imply the potential usefulness of the ASFV-D9 L strain for further development of ASF control measures.     

Dynamic Host Immune and Transcriptomic Responses to Respiratory Syncytial Virus Infection in a Vaccination-Challenge Mouse Model

Virologica Sinica - Respiratory syncytial virus (RSV) is the major cause of lower respiratory tract infections in children. Inactivated RSV vaccine was developed in the late 1960’s, but the...     

C19orf66 Inhibits Japanese Encephalitis Virus Replication by Targeting -1 PRF and the NS3 Protein

Virologica Sinica - The Japanese encephalitis serogroup of the neurogenic Flavivirus has a specific feature that expresses a non-structural protein NS1′ produced through a programmed -1...     

Generation and Characterization of a Nanobody Against SARS-CoV

Virologica Sinica - The sudden emergence of severe acute respiratory syndrome coronavirus (SARS-CoV) has caused global panic in 2003, and the risk of SARS-CoV outbreak still exists. However, no...     

Genomic data reveal two distinct species from the widespread alpine ginger Roscoea tibetica Batalin (Zingiberaceae)

Species delimitation is a key foundation for exploring biodiversity. However, the existence of continuous phenotypic variation in widespread species challenges accurate species delimitation based on classical taxonomy. In this study, we investigated the cryptic diversity of a widespread herb (Roscoea tibetica Batalin) in a biodiversity hotspot (the Hengduan Mountains, China) using genotyping by sequencing, examining morphological traits, developing species distribution models, and simulating demographic history. Phylogenomic reconstruction, principal component analysis, and genetic structure inferences indicated that previously reported R. tibetica comprised two monophyletic lineages with a deep divergence. Several morphological diagnostic characteristics were discovered from field and common garden that corresponded to these independent evolutionary lineages. Species distribution models illustrated significant ecological divergence between both lineages. All evidence strongly supported that R. tibetica, as described in previous taxonomy, actually comprises two distinct species. Model test of gene flow and effective population size changes in fastsimcoal2, and a negative Tajima's D-value suggested that recent contact likely occurred between the two lineages. Our results proposed that cryptic diversity in previously reported R. tibetica was possibly associated with phenotypic plasticity in heterogeneous environments and morphological convergence in similar habitats. This study suggests that caution should be exercised when attempting to gain biological insight into species with large-scale morphological variation, and species delimitation should be done in advance.