海南芒果园土壤环境及其对芒果品质的影响

针对海南芒果(Mangifera indica)生产的环境条件进行了研究,分别在芒果园采集了植株和土壤样品,采用国家标准测定方法对比分析了各种元素的含量和分布特征,并阐明了芒果对环境条件的生态适应性.研究结果表明:海南芒果园土壤有机质、全氮、有效磷含量较低(为四级以下水平),有效钾含量相对较高.Ca、Mg、B、Ni含量较低,Cu、Mn含量较高.海南芒果种植地环境质量较好,Cr、Pb、Cd等低于国家土壤环境质量一级标准.Hg、Cu、As、Pb含量为一至二级标准.六六六、滴滴涕含量低于一级标准.海南芒果矿质元素含量丰富,农药残留量和Cr、As、Cd含量符合无公害芒果的要求.芒果对大中量元素、微量元素和有害元素(Hg、As、Cd)的生物吸收系数较大.锰主要在叶片中积累,铜则主要积累在果实中.     

硅酸盐、腐殖酸对Cr污染土壤中小白菜生理及吸铬量的影响

针对在铬污染区土壤中的叶菜类吸铬量是果菜类2~3倍,以及硅酸盐或腐植酸在重金属污染土壤上的最佳施用量研究较少的问题,为保障蔬菜的品质安全,文章通过土壤盆栽试验,研究硅酸盐、腐殖酸不同用量对Cr污染土壤中小白菜(Brassica Chinensis)生理指标和吸铬量的影响.结果表明,施低质量分数的硅酸盐(1.0 g·kg-1)效果最佳,既能提高受Cr污染小白菜的生物量、叶绿素相对含量,又能减轻Cr毒害对抗氧化酶系统中SOD酶活性的抑制,缓解小白菜受到的过氧化胁迫,有效降低小白菜吸铬量;高质量分数硅酸盐(2.0 g·kg-1)对生长产生抑制.腐殖酸在设计的3个质量分数水平上均不能有效降低小白菜吸铬量,对生长的促进作用也不明显.     

曝气复氧对滇池重污染支流底泥污染物迁移转化的影响

利用模拟试验方法,研究和探讨了河道曝气复氧对滇池重污染支流底泥污染物迁移转化的影响,结果表明:(1)曝气复氧会导致上覆水体pH值上升0.6～1.0;(2)曝气复氧对上覆水体中TN、TP的质量浓度影响相似,在好氧处理条件下呈下降趋势,而在不曝气的对照处理中呈持续上升趋势,两种状况上覆水体TN、TP的平均变化速率分别为:-0.156 mg·L-1·d-1、-0.060mg·L-1·d-1和0.414mg·L-1·d-1、0.036mg·L-1·d-1;(3)上覆水体中COD的质量浓度在好氧和对照两种处珲条件下,表现出两种不同的变化趋势,前者先上升后下降,而后者先下降后上升,平均变化速率分别为-0.361 mg·L-1·d-1和0.314 mg·L-1·d-1;(4)曝气复氧可抑制河道底泥向上覆水释放污染物质,适合于重污染河道水体修复.     

Predation affects the susceptibility of hard clam Meretrix lusoria to Hg-stressed birnavirus

Predator–prey interaction in aquatic ecosystem is one of the simplest drivers affecting the species population dynamics. Predation controls are recognized as important aspects of ecosystem husbandry and management. In this paper we investigated how predation control cause an increase in host growth in the abundance of hard clam (Meretrix lusoria) populations subject to mercury (Hg)-stressed birnavirus. Here we linked predator–prey relationships with a bioenergetic matrix population model (MPM) associated with a susceptible–infectious–mortality (SIM) model based on a host–pathogen–predator framework to quantify the predator effects on population dynamics of disease in hard clam populations. Our results indicated that relative high predation rates could promote the hard clam abundances in relation to predators that selectively captured the infected hard clam, by which the disease transmission was suppressed. The results also demonstrated that predator-induced modifications in host behavior could have potential negative or positive effects on host growth depending on relative species density and resource dynamics. The most immediate implication of this study for the management of aquatic ecosystem is that, beyond the potential for causing a growth in abundance, predation might provoke greater predictability in aquatic ecosystem species populations and thereby increase the safety of ecosystem production from stochastic environmental events.     

G-CNTs/PVDF mixed matrix membranes with improved antifouling properties and filtration performance

A novel nanocomposite OMWCNT-A-GO was synthesized by conjugating OMWCNT and GO. The P-OMWCNT-A-GO membrane was fabricated by non-solvent induced phase inversion. The P-OMWCNT-A-GO exhibits the best water flux, BSA rejection and flux recovery. It should be due to the enhanced membrane pore size, porosity and hydrophilicity. Although carbon nanomaterials have been widely used as effective nanofillers for fabrication of mixed matrix membranes (MMMs) with outstanding performances, the reproducibility of the fabricated MMMs is still hindered by the non-homogenous dispersion of these carbon nanofillers in membrane substrate. Herein, we report an effective way to improve the compatibility of carbon-based nanomaterials with membrane matrixes. By chemically conjugating the oxidized CNTs (o-CNTs) and GO using hexanediamine as cross-linker, a novel carbon nanohybrid material (G-CNTs) was synthesized, which inherited both the advanced properties of multi-walled carbon nanotubes (CNTs) and graphene oxide (GO). The G-CNTs incorporated polyvinylidene fluoride (PVDF) MMMs (G-CNTs/PVDF) were fabricated via a non-solvent induced phase separation (NIPS) method. The filtration and antifouling performances of G-CNTs/PVDF were evaluated using distillate water and a 1 g/L bovine serum albumin (BSA) aqueous solution under 0.10 MPa. Compared to the MMMs prepared with o-CNTs, GO, the physical mixture of o-CNTs and GO and pure PVDF membrane, the G-CNTs/PVDF membrane exhibited the highest water flux up to 220 L/m²/h and a flux recovery ratio as high as 90%, as well as the best BSA rejection rate. The excellent performances should be attributed to the increased membrane pore size, porosity and hydrophilicity of the resulted membrane. The successful synthesis of the novel nanohybrid G-CNTs provides a new type of nanofillers for MMMs fabrication.     

三氯生光降解动力学过程及其光降解产物生物毒性评价

光化学降解是药品及个人护理用品(PPCPs)在环境中转化归趋的重要途径之一,同时光解过程对该类化合物的生态毒性产生重要影响。本研究以抗菌药物三氯生为模型化合物,研究在紫外光照射下,三氯生初始浓度、腐殖酸含量、pH、光强对其光降解动力学的复合影响。采用发光细菌、羊角月牙藻2个不同营养级生物的毒性响应变化评价三氯生母体化合物及光降解过程中毒性变化。研究表明:三氯生光降解遵循准一级反应动力学。初始浓度为10μmol·L~(-1)、腐殖酸含量为0 mg·L~(-1),初始p H值为11、光强为0.44 m W·cm-2时,该光化学降解反应体系三氯生有最高的反应速率和降解效率。三氯生光降解过程中产生了对受试生物有较高抑制作用的中间产物,随着光降解时间的延长,光降解中间产物的毒性逐渐降低,在光降解30 min后无显著毒性。     

增塑剂邻苯二甲酸二异壬酯致小鼠肺细胞氧化损伤作用的研究

为研究增塑剂邻苯二甲酸二异壬酯(diisononyl phthalate,DINP)对小鼠肺组织的氧化损伤作用,以昆明小鼠为受试动物,随机分为5组,包括1个阴性对照组(生理盐水)和4个DINP染毒组(0.2、2、20和200 mg·kg~(-1)),灌胃14 d。光镜下发现小鼠肺组织形态随染毒剂量的增加,小鼠肺细胞的病理损伤越严重。随着DINP染毒剂量的增加,肺组织匀浆活性氧(reactive oxygen species,ROS)、丙二醛(malondialdehyde,MDA)含量和肺组织细胞DNA-蛋白质交联(DNA-protein crosslink,DPC)系数逐渐上升,还原型谷胱甘肽(glutathione,GSH)含量逐渐降低,各指标呈一定的剂量-效应关系。染毒剂量为20 mg·kg~(-1)时,ROS和MDA含量差异有统计学意义(P0.05,P0.01);染毒剂量为200 mg·kg~(-1)时,上述指标差异均有统计学意义(P0.01)。结果表明,较高剂量(≥20 mg·kg~(-1))的DINP能造成小鼠肺组织的氧化损伤和病理损伤。     

浮尘对冬小麦叶片光合作用及细胞膜透性的影响

我国是浮尘发生频繁的国家。浮尘作为一种灾害性天气不仅直接危害作物,而且通过减少直接辐射,减缓冰雪融化,减少河水流量,改变土壤性质等间接影响作物的生长发育。因此,深入研究浮尘对作物的影响具有重要意义。但目前,国内外的学者主要偏重研究人为粉尘和工业污染物对野生植物及绿化植物的影响,较少关注自然降尘对作物的影响;特别是在长期浮尘胁迫下冬小麦叶片的气孔导度、净光合速率、细胞质膜相对透性等生理指标的变化很少有研究。通过模拟降尘和盆栽试验,研究了拔节期和盛花期的降尘对冬小麦叶片温度（Tleaf）、叶绿素含量（Chl）、游离脯氨酸含量（Pro）、净光合速率（Pn）、气孔导度（Gs）、胞间CO2浓度（Ci）、细胞膜透性的影响（MP）。结果表明,降尘使拔节期和盛花期冬小麦的净光合速率分别下降52%和43.9%,差异均显著（P〈0.05）;降尘还增大细胞膜透性,破坏了冬小麦自身调节系统,使拔节期和盛花期的叶绿素含量分别下降14.4%和20.4%,达到极显著差异（P〈0.01）;降尘还使拔节期叶片的气孔导度下降到对照的26.9%（P〈0.05）,同时叶面温度升高,脯氨酸含量增加38.2%。