颤藻属(蓝藻门)两新种

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模拟增温和不同凋落物基质质量对凋落物分解速率的影响

采用凋落物分解袋法,研究了在土壤、水分相当的条件下模拟增温对红松(Pinus koraiensis)、蒙古栎(Quercus mongolica)及其混合凋落物分解的影响,以及在不同温度水平下,不同凋落物质量(两种单一凋落物和混合凋落物)的分解特性。利用碱式吸收法测量了凋落物分解累积释放CO₂动态。将N浓度和C/N率作为凋落物质量参数,用呼吸产生CO₂的积累值和凋落物质量损失率确定凋落物分解率。结果表明温度升高对单一凋落物和混合凋落物分解均有促进作用,在不同温度水平上,不同质量凋落物的分解特性有所差别,25 ℃和29 ℃条件下混合凋落物分解速率>蒙古栎单一凋落物>红松单一凋落物分解速率。然而,在31 ℃条件下混合凋落物与蒙古栎单一凋落物分解速率相差不大,二者均大于红松单一凋落物分解速率。     

Genetic trade‐offs between complex diseases and longevity

Longevity was influenced by many complex diseases and traits. However, the relationships between human longevity and genetic risks of complex diseases were not broadly studied. Here, we constructed polygenic risk scores (PRSs) for 225 complex diseases/traits and evaluated their relationships with human longevity in a cohort with 2178 centenarians and 2299 middle‐aged individuals. Lower genetic risks of stroke and hypotension were observed in centenarians, while higher genetic risks of schizophrenia (SCZ) and type 2 diabetes (T2D) were detected in long‐lived individuals. We further stratified PRSs into cell‐type groups and significance‐level groups. The results showed that the immune component of SCZ genetic risk was positively linked to longevity, and the renal component of T2D genetic risk was the most deleterious. Additionally, SNPs with very small p‐values (p ≤ 1x10^‐5) for SCZ and T2D were negatively correlated with longevity. While for the less significant SNPs (1x10^‐5 < p ≤ 0.05), their effects on disease and longevity were positively correlated. Overall, we identified genetically informed positive and negative factors for human longevity, gained more insights on the accumulation of disease risk alleles during evolution, and provided evidence for the theory of genetic trade‐offs between complex diseases and longevity.     

东北温带森林常见树种粗根分解过程及调控因子

粗根是森林生态系统中重要的碳库和养分库,对生态系统的碳和养分循环起着重要的作用。但目前人们对于影响粗根分解的主要因素以及粗根分解模式的研究较少。采用埋袋法对东北温带森林常见的10个树种（黄檗、胡桃楸、水曲柳、色木槭、红松、落叶松、白桦、春榆、紫缎、蒙古栎）的粗根（5-10 mm）进行了为期1年的分解实验研究,来探索粗根分解和养分释放的动态变化规律。研究结果表明：黄檗、胡桃楸、水曲柳、色木槭、红松、落叶松、白桦、春榆、紫缎、蒙古栎粗根年分解系数分别为0.826、0.897、0.477、0.341、0.358、0.264、0.244、0.593、0.458、0.227。由此可见,胡桃楸分解速率最快,蒙古栎分解速率最慢。在粗根分解过程中,不同调控因子对根系分解的影响不同。研究结果表明,粗根的分解速率与根系的初始C/N比例呈显著负相关（P<0.0001）,与初始木质素含量呈负相关（P<0.0001）,与初始非结构性碳水化合物（NSC）含量呈正相关（P<0.0001）。初始C/N、木质素含量与非结构性碳水化合物含量分别可以解释所研究的10个树种粗根分解速率的68%、20%与65%。研究结论对于预测粗根参与的碳循环与养分释放具有重要意义。     

安徽省鸟类新纪录——白头鹀

2012年11月12日在安徽省阜阳市太和县旧县镇单场村的路边一棵大叶女贞树上（N:33°15′11.88",E:115°36′12.10",alt:36m)用数码相机NIKON COOLPIX P510拍摄到一只白头鹀（Emberiza leucocephalos ）,经查阅资料后证实为安徽省的新记录     

Rapid screening of highly efficient vaccine candidates by immunoproteomics

Diseases caused by microorganisms can be controlled by vaccines, which require neutralizing antigens. Therefore, it is very important to identify highly efficient immunogens for immune prevention. By combining immunoproteomics and bacterial challenge after immunization, we developed a rapid method for screening protected antigens of pathogenic bacteria in aquaculture. Our approach may be divided into three consecutive steps. First, dominant immunogens of outer membrane proteins are screened by immunoproteomics. Second, proteins with the ability to induce production of neutralizing antibodies are identified from the immunogens by virulent bacterium challenge following vaccination. Third, vaccine candidates are determined by evaluation of neutralizing abilities. Information on the candidates has been obtained for further gene cloning by mass spectrometry. Our results indicate that highly efficient protected antigens were identified from the outer membrane proteome of Aeromonas hydrophila, in which an immunogen showed 71.4% protective ability with multivalent functions to A. hydrophila and Aeromonas sobria. In summary, we have developed a high-throughout, accurate, rapid and highly efficient method which will play an active role in immune prevention for microbiological diseases.     

中国温带阔叶红松林不同演替系列土壤有机碳矿化特征

土壤有机碳矿化与陆地生态系统碳循环和全球气候变化关系密切,为准确评估中国温带小兴安岭阔叶红松林不同演替系列土壤有机碳矿化特征及变化规律。以年代序列法代替群落次生演替过程,采用室内恒温培养(碱液吸收法)测定阔叶红松林不同演替系列(中生演替系列、湿生演替系列、旱生演替系列)6种群落类型土壤有机碳矿化量和矿化速率。3个演替系列土壤有机碳含量均表现出一致的剖面变化特征,随着土层深度的加深有机碳矿化量逐渐降少。且不同演替系列土层间有机碳矿化量不同,中生演替系列原始阔叶红松林土壤有机碳累计矿化量最大,其次为旱生演替系列,湿生演替系列最小。3个演替系列土壤有机碳矿化速率随时间变化呈现基本一致的趋势,即培养前期快速下降、后期逐渐趋于平稳。3个演替系列6种群落类型土壤有机碳矿化差异显著,表现为原始阔叶红松林白桦次生林云冷杉红松林红松枫桦次生林蒙古栎红松林蒙古栎、黑桦次生林。阔叶红松林不同演替系列土壤有机矿化采用非线性指数拟合效果较好。阔叶红松林不同演替系列土壤有机碳矿化与土壤全氮、凋落物量显著正相关,与土壤含水率、容重、土壤酸碱度显著负相关。不同演替系列群落的演替历史、土壤质地和养分状况等生态因子是导致阔叶红松林不同演替系列土壤有机碳矿化差异的原因。     

不同林龄白桦天然次生林土壤碳通量和有机碳储量

白桦天然次生林是中国东北地区地带性顶极植被类型——阔叶红松林遭到严重干扰破坏后恢复形成的主要天然次生林类型,测定了生长季内不同林龄白桦天然次生林(20、36、82a)的土壤呼吸速率及土壤碳含量。结果表明:土壤呼吸速率的季节变化呈单峰曲线,主要受土壤温度的驱动,土壤10cm处温度可以解释不同林龄白桦林之间土壤呼吸速率86%—92%的变异,土壤呼吸与土壤含水量关系不显著(P0.05)。随着林龄的增加,生长季内土壤表面CO2通量呈增加的趋势,依次分别为740(20a)、768(36a)和809(82a)g C m-2a-1。土壤呼吸的温度敏感性指数Q10亦随林龄的增加呈上升的趋势,依次分别为2.64、2.91和3.35。平均土壤有机碳含量(0—50cm土壤层)和碳密度均随林龄的增加而增加,随土壤深度的增加而减少;其中,随着林龄的增加土壤有机碳含量依次分别为43.75、47.72和55.96 g/kg,有机碳密度为14.7、18.1和18.7 kg/m2。不同林龄间土壤表面CO2年通量与土壤有机碳密度之间存在显著的正相关关系(P0.01),但其相关程度因土层而异,其中与0—10cm土层的有机碳密度相关最为密切(R2=0.908)。     

小兴安岭十种典型森林群落凋落物生物量及其动态变化

在小兴安岭地区选取10种典型森林群落分别设置样地,研究该地区不同群落类型凋落物的年产量、月动态变化以及组成特征.结果表明:10种群落类型中年均凋落物量大小依次为椴树红松林(4.08t· hm-2·a-1)＞蒙古栎红松林(3.83 t·hm-2·a-1)＞云冷杉红松林(3.55 t·hm-2·a-1)＞云冷杉林(3.44t· hm-2·a-1)＞枫桦红松林(3.43t·hm-2· a-1)＞山杨次生林(3.26 t·hm-2·a-1)＞白桦次生林(3.04 t·hm-2·a-1)＞枫桦次生林(2.96 t·hm-2·a-1)＞杂木林(2.95 t·hm-2·a-1)＞白桦落叶松林(2.91 t·hm-2·a-1).凋落物各组分中均以落叶为主,约占凋落总量的60％以上,枝仅占凋落量的5.7％-9.4％.凋落物月动态模式主要有两种:单峰型的有蒙古栎红松林、椴树红松林、枫桦红松林、枫桦次生林、山杨次生林、白桦次生林、杂木林,高峰期在8-10月份;双峰型的有云冷杉红松林、云冷杉林、白桦落叶松次生林,前两种群落的凋落高峰期在4月和9月,后者高峰期在8月和10月.不同群落类型年凋落量差异显著,原始红松林凋落量高于天然次生林,且凋落高峰出现时问以及各组分所占比例与群落类型有关,同时也与树种生物学特性有关.     

Broadband near-infrared (NIR) emitting Cr3+-doped La3Ga5SnO14 phosphor with long persistent and photostimulated persistent luminescence

Recently, long persistent phosphors (LPPs) have attracted significant attention as promising candidates for biomedical applications. However, the serious decrease in luminescence intensity in tissue still remains a major challenge. Therefore, exploring more competitive LPPs and achieving reproducible tissue imaging is crucial. In this study, a new series of near-infrared (NIR) phosphors La₃Ga₅Sn_1-xO₁₄:xCr³⁺ (x = 0.005–0.05) were synthesized using a high-temperature solid-state method. The as-synthesized samples were characterized using X-ray diffraction, diffuse/photoluminescence spectroscopy, fluorescence decay curves, and thermoluminescence spectroscopy. Upon excitation with ultraviolet light, strong emission bands were observed in the range 600–1200 nm with an optimal doping concentration of x = 0.02 mol. Moreover, La₃Ga₅SnO₁₄:Cr³⁺ exhibits persistent luminescence due to the presence of suitable energy traps, which prompted the phosphor to emit NIR light even after the removal of the excitation source.