Use and application of CFC-11,CFC-12,CFC-113 and SF6 as environmental tracers of groundwater residence time:A review

Groundwater residence time is a fundamental property of groundwater to understand important hydrogeological issues,such as deriving sustainable abstraction volumes,or,the evolution of groundwater quality.The anthropogenic trace gases chlorofluorocarbons (CFC-11,CFC-12 and CFC-113) and sulphur hexafluoride (SF6) are ideal in this regard because they have been released globally at known rates and become dissolved in groundwater following Henry’s Law,integrating over large spatial (global) and temporal (decades) scales.The CFCs and SF6 are able to date groundwater up to w100 years old with the caveat of certain simplifying assumptions.However,the inversion of environmental tracer concentrations (CFCs and SF6) to derive groundwater age rests on the accurate determination of groundwater recharge parameters,namely temperature,elevation,salinity and excess air,in addition to resolving the potential for contamination,degradation and unsaturated zone effects.This review explores the fundamentals of CFC-11,CFC-12,CFC-113 and SF6 as environmental tracers of groundwater age and recommends complementary techniques throughout.Once this relatively simple and inexpensive technique has been used to determine initial concentrations at the recharge zone,setting the groundwater dating ‘clock’ to zero,this review then explores the meaning of groundwater ‘age’ in relation to measured environmental tracer concentrations.It is shown that the CFCs and SF6 may be applied to a wide-range of hydrogeological problems and suggests that environmental tracers are particularly powerful tools when integrated with numerical flow and transport models.

水环境中全氟和多氟烷基物质(PFAS)的分析技术与分布特征

新污染物全氟和多氟烷基物质(PFAS)因具有持久性、长距离迁移性、生物积累性和生物毒性而受到广泛关注。水环境是PFAS重要的汇,相关学者已对其污染状况开展了大量研究。通过梳理相关文献发现,目前的研究在PFAS分析技术、分布特征及其在水和沉积物之间的分配机理方面有了一些突破。鉴于此,总结了水环境中PFAS的前处理和检测技术,讨论了其在国内外地表水环境中的空间分布及污染特征,着重评述了PFAS在固相基质中的吸附机理及影响因素,最后展望了PFAS类新污染物的研究方向。

Aquatic photo-transformation and enhanced photoinduced toxicity of ionizable tetracycline antibiotics

Most antibiotics contain ionizable groups that undergo acid-base dissociation giving rise to diverse dissociated forms in aquatic systems depending on the pH of the system.In sunlit surface waters,photochemical transformation plays a crucial role in determining the fate of antibiotics.This study presents a comprehensive examination of the photo-transformation degradation kinetics,pathways and photoinduced toxicity of three widely detected tetracyclines(TCs):tetracycline(TC),oxytetracycline(OTC),and chlortetracycline(CTC).Under simulated sunlight(λ>290 nm),their apparent photolysis followed pseudo-first-order kinetics,with rate constants significantly increasing from H_(2)TCs^(0)to TCs^(2–).Through competition kinetic experiments and matrix calculations,it was found that the anions HTCs–or TCs^(2–)(pH~8–10)were more reactive toward hydroxyl radicals(•OH),while TCs^(2–)(pH~10)reacted the fastest with singlet oxygen(^(1)O_(2)).Considering the dissociated species,the total environmental photo-transformation half-lives of TCs were determined,revealing a strong dependence on the water pH and seasonal variation in sunlight.Generally,apparent photolysis was the dominant photochemical process,followed by^(1)O_(2)and•OH oxidation.Different transformation pathways for the three reactions were determined based on the key photoproducts identified using HPLC-MS/MS.Toxicity tests and ECOSAR software calculations confirmed that the intermediates produced by the•OH and 1O_(2)photo-oxidation processes were more toxic than the parent compounds.These findings significantly enhance our understanding of the complex photochemical fate and associated risks of TCs in aqueous environments.

A dicistrovirus increases pupal mortality in Spodoptera frugiperda by suppressing protease activity and inhibiting larval diet consumption

Understanding interactions between viruses and their hosts is conducive to enabling better application of viruses as biocontrol agents.Certain viruses carried by parasitic wasps enhance the parasitic efficiency of wasp-larvae by protecting them against the immune system of their Lepidopteran host.However,the relationship between prey pests and viruses found in predatory natural enemies remains unclear.Herein,we report the interaction between Arma chinensis virus-1(AcV-1),originally isolated from a predatory natural enemy,Arma chinensis(Hemiptera:Pentatomidae),and one of its prey species,Spodoptera frugiperda(Lepidoptera:Noctuidae).The results showed that the AcV-1 virus appeared harmful to the novel host S.frugiperda by inhibiting larval diet consumption and increasing pupal mortality.Meanwhile,sequencing data indicated that the virus altered the gene expression profiles of S.frugiperda.KEGG analysis showed that the proteasome and phagosome pathways related to protein degradation and immune response were significantly enriched.Although the expression levels of digestive enzyme genes did not change significantly,the total protease activity of AcV-1 virus-positive individuals was significantly decreased,suggesting that the virus inhibited diet consumption of S.frugiperda via the down-regulation of digestive enzyme activities.These results indicate that a virus initially isolated in a predatory natural enemy can decrease the fitness of its prey species.The virus was found to impact the host proteasome and phagosome pathways related to protein degradation and immunity,providing a potential mechanism to enhance controlling efficiency.

Microplastic Impacts on Greenhouse Gases Emissions in Terrestrial Ecosystems

Microplastics can influence global climate change by regulating the emissions of greenhouse gases from different ecosystems. The effects of microplastics in terrestrial ecosystems are still not well studied particularly greenhouse gases emissions. Thus, we conducted a laboratory experiment over a period of 90 days with two types of microplastics (differing in their chemical structure), high density polyethylene (HDPE) and low density polyethylene (LDPE), which were applied to the soil at a rate of 0% to 0.1% (w/w). The overarching aim was to investigate the effects of microplastic type, microplastic concentration and days of exposure on greenhouse gases emissions. We also used original and artificially weathered microplastics (the same HDPE and LDPE) to make a comparison of greenhouse gases emissions between the original microplastics treated soils and the soils treated with weathered microplastics. Our findings showed that HDPE and LDPE microplastics significantly increased the emissions of greenhouse gases from the soil than that of the control soils. Emissions were increased with the increases in the level of microplastic in the soil. The weathered microplastic emitted greater quantity of greenhouse gases compared to that of the original microplastics. In contrast to a low initial emission quantity, the emissions were gradually increased at the termination of the experiment. Our experiment on the emissions of greenhouse gases from the soil vis-à-vis microplastic additions indicated that the microplastic increased the emissions of greenhouse gases in terrestrial ecosystems, and pervasive microplastic impacts may have consequences for the global climate change. Greenhouse gases emissions from the soil not only depend on the type and concentration of the microplastic, but also on the days of exposure to the microplastic.

英国农业面源污染防控对我国的启示

当前,世界范围内正面临着粮食增产与维护和改善农业生态环境质量的挑战,治理面源污染是其中的重要内容。通过对英国面源污染治理的防治技术、技术推广体系和相关政策措施方面的系统整理和分析,就我国相应工作提出建议和对策。结合我国当前一控两减三基本的农业资源和环境对策,今后应主要通过源头控制和过程拦截两种手段,注重化肥的减量优化以及有机无机配合使用,强调土地利用管理、农业结构调整以及种养结合,开发和实施符合各地实际情况的面源污染防控技术和措施。发挥非政府形式技术服务体系在面源污染防控中的重要作用,利用政府补贴、生态补偿等经济手段鼓励农户和农业企业主动防控氮磷物质的损失和对水土系统的污染。相关技术文件和规定应更加具体、明确、具有更好的操作性,依托现代信息手段等进行面源污染数据的收集、传输和分析,并在政策制定过程中统筹考虑。将面源污染纳入国家经济和社会发展的总体规划,与产业优化、经济发展指标完善等宏观政策统一,逐步提升生态文明的建设质量,促进我国社会和经济的可持续发展。

基于SARIMA-BP神经网络组合方法的MODIS叶面积指数时间序列建模与预测

植被叶面积指数(LAI)时间序列的建模及预测是陆面过程模型和遥感数据同化方法的重要组成部分。MODIS数据产品MOD15A2是目前应用最为广泛的LAI数据源之一,然而MODIS LAI时间序列产品包含了一些低质量的数据,例如由于云层、气溶胶等的影响,该产品在时间和空间上缺乏连续性。MODIS LAI时间序列包含线性部分和外在干扰产生的非线性部分,单一的线性方法或非线性方法都不能对其精确建模和预测。首先利用Savitzky-Golay(SG)滤波和线性插值平滑受到干扰的LAI时间序列,然后采用季节自回归积分滑动平均(SARIMA)方法、BP神经网络方法及二者的组合方法(SARIMA-BP)对MODIS LAI时间序列进行建模及预测。在SARIMA-BP神经网络组合方法中,各自在线性与非线性建模的优势得以充分发挥,其中SARIMA方法用于建模及预测LAI时间序列中的线性部分,BP神经网络方法用于对非线性残差部分进行建模及预测。实验结果显示:SG滤波和线性插值后的LAI时间序列比原LAI时间序列更平滑;SARIMA-BP神经网络组合方法的决定系数为0.981,比SARIMA和BP神经网络的0.941和0.884更接近于1;SARIMA-BP神经网络组合方法的预测值同观测值之间的相关系数为0.991,高于SARIMA(0.971)和BP神经网络(0.942)的相关系数。由此得出结论:SARIMA-BP神经网络组合方法对MODIS LAI时间序列具有更好的适应性,其建模和预测准确性高于SARIMA方法或BP神经网络方法。

梯度扩散薄膜技术(DGT)的理论及其在环境中的应用I:工作原理、特性与在土壤中的应用

根据文献资料,详细阐述了梯度扩散薄膜技术(DGT)的原理、影响DGT技术测量的因素和它的应用特性,同时回顾了DGT技术问世以来在土壤中的应用实例,并认为DGT技术为研究土壤重金属的生物可利用性提供了可行可靠而又有效的方法。

化学提取法与梯度扩散薄膜技术提取太湖沉积物中有效砷的比较

以底栖生物河蚬(Corbicula fluminea)为实验生物,外源三价砷污染太湖沉积物为研究对象,利用生物富集实验分别比较了DGT(Diffusive gradients in thin films)梯度扩散薄膜技术和化学连续提取法所测浓度与河蚬中砷的生物有效性的相关性,并分析了这两种方法的差异。实验结果显示随着沉积物中染毒的总砷浓度(9.48,14.12,19.88,26.86,35.66,46.42,54.25mg·kg-1)增加,DGT测得砷浓度和化学提取法所测砷含量也随之增加,Pearson相关系数均在0.98以上(P<0.01),表明这两种技术均能很好地预测沉积物中有效砷含量。通过河蚬对三价砷的暴露实验,发现当沉积物总砷含量在35.66mg·kg-1以下时,暴露14d和28d后河蚬体内富集的总砷含量与暴露浓度增加趋势一致。Pearson分析结果显示DGT法和化学提取法测得结果均与河蚬体内砷的富集量显著相关,因此这两种方法都可用于预测河蚬体内肉质部的总砷富集量。

青藏高原三江源区不同恢复期高寒草甸土壤线虫群落演变

青藏高原三江源地区的高寒草甸面临着严峻的退化问题,人工建植是三江源地区退化草地的重要修复方式。为探究地下生物对草地人工恢复措施的响应,本研究比较了三江源地区高寒草甸不同恢复期人工草地(建植1、5和10 a)的土壤线虫群落变化。结果显示:与原生植被样地相比,所有恢复期样地的植物地下生物量降低,土壤容重、pH、全磷、全钾和硝态氮含量升高,表明人工草地系统的初级生产力和土壤特性尚未恢复到原生草地状态。不同恢复期样地中土壤线虫的均匀度和多样性指数均显著高于原生植被样地。此外,不同恢复期样地的线虫多度、代谢足迹以及成熟度指数均随恢复年限的增加而增加。相关性分析结果表明,土壤线虫多度与植物地下生物量、土壤有机质、全氮、全磷、矿质氮和速效氮含量显著正相关(P<0.05),与土壤pH、全钾和容重显著负相关(P<0.05)。尽管三江源区退化草地的人工恢复措施尚未完全恢复牧草生产力至原生植被状态,但土壤生物结构及功能具有改善的趋势,显示该地区退化草地生态系统具有较强的恢复潜力。

梯度扩散薄膜技术(DGT)的理论及其在环境中的应用Ⅱ：土壤与沉积物原位高分辨分析中的方法与应用

从吸附膜的设计、采样装置的设计和分析方法三个方面系统介绍了梯度扩散薄膜技术(DGT)在土壤和沉积物介质中原位高分辨研究的方法学,并回顾了DGT自诞生以来在根际土壤和沉积物中原位高分辨应用所取得的重要研究成果,最后探讨了DGT在原位高分辨研究中的发展前景。DGT技术在沉积物和土壤中对污染物微界面机制的原位高分辨率研究,能够揭示控制重金属污染的关键过程,为针对性地做出管理控制方案提供了重要理论支持,从而推动我国对土壤、沉积物污染的防治和粮食安全的控制。

生物炭在柑橘皮厌氧发酵中作用机理研究

该研究主要调查柑橘皮废料厌氧消化能力在不同类型的生物炭和不同比率下的影响。柑橘皮对厌氧消化有抑制作用。生物炭的存在有两种影响:相对于只有柑橘皮废料的培养来说,它减少了迟滞期的长度,并且使甲烷的产量更高。微生物迟滞期随着柑橘皮与生物炭比例的增加而降低,在比例为2∶1时停滞期最长,为9.4 d,在比例为1∶3时迟滞期最短,为7.5 d。生物炭和柑橘皮培养中累积的甲烷产量在163.9到186.8 mLCH4 ·g^-1VS之间变动,而只有柑橘皮培养中的甲烷产量只有165.9 mLCH4 ·g^-1VS。在检测生物炭材料时发现了推测的产甲烷菌群。D-柠檬烯吸附和微生物固定化的协同作用在生物炭的影响下会提高厌氧消化的性能。

The transformation of agriculture in China: Looking back and looking forward

China’s grain yield increased from 1 t hain 1961 to 6 t hain 2015, while successfully feeding not only its large population but also supplying agricultural products all over the world. These achievements were greatly supported by modern technology and distinct governmental policy. However, China’s grain production has been causing a number of problems mainly related to declining natural resources and a lack of environmental protection. Due to the growing population and changing dietary requirements, increasing food production must be achieved by increasing resource use efficiency while minimizing environmental costs. We propose two novel development pathways that can potentially sustain agricultural crop production in the next few decades:(i) enhancing nutrient use efficiency with zero increase in chemical fertilizer input until 2020 and(ii) concurrently increasing grain yield and nutrient use efficiency for sustainable intensification with integrated nutrient management after 2020. This paper provides a perspective on further agricultural developments and challenges, and useful knowledge of our valuable experiences for other developing countries.

Granite is an Effective Helium Source Rock: Insights from the Helium Generation and Release Characteristics in Granites from the North Qinling Orogen, China

Global helium(He) shortage is a challenging problem;however, the types of helium source rock and the mechanisms of He generation and release therein remain still poorly understood. In this study, in order to evaluate the potential of granite as an effective helium source rock, we collected granitic samples from the North Qinling Orogen, Central China, in the south of the helium-rich Weihe Basin. The helium generation and release behaviors in granite were studied through analysis of U and Th concentrations, EMPA images, and He and Ar concentrations and isotopic ratios extracted by crushing and stepwise heating. The results indicate that Ar has a better retention and a lower mobility than He. 3 He/4 He ratios released by crushing and stepwise heating are 0.016–0.056 RA and 0.003–0.572 RA, respectively, where RA is the atmospheric 3 He/4 He of 1.4×10-6, reflecting a crustal and radiogenic source. Helium concentrations extracted by the two ways are 0.13–0.95 ucm3 STP/g and 7.82–115.62 ucm3 STP/g, respectively, suggesting that matrix-sited He accounts for more than 98% of total helium preserved in granite. In addition, the total generated He amounts in granites are calculated based on the measured U and Th concentrations in granitic samples. Dividing the preserved He quantities by the generated He amounts, it turned out that less than 10% of He produced since the formation of the granite is preserved in the rock over geological time, suggesting that more than 90% generated He can be transferred to the Weihe Basin. Temperature and fracture are the two critical factors controlling He release. Based on the relationship between He diffusivity of granites and temperature and the He closure temperatures of a variety of U-and Th-rich minerals(27–250°C), we estimate that He can be partially released out of granite at the depths <400 m and totally released at the depths >7800 m. Fractures provide effective transfer of free He from deep source rocks to shallow reservoirs. Finally, a model on granite as an effective helium source rock is established. We suggest exploring He resources in hydrocarbon basins with granitic basement(or adjacent to granite bodies), high geothermal field, and young active fractures.

Analysis of phototactic responses in Spodoptera frugiperda using Helicoverpa armigera as control

Light traps are widely utilized to monitor and manage insect pest populations.In late 2018,the fall armyworm(FAW),Spodoptera frugiperda,invaded China through Yunnan Province representing a huge threat to grain production.To estimate the efficiency of light traps on FAW moths,we first identified the opsin genes from FAW by using the transcriptome.Phylogenetic analysis indicated that the four opsins of FAW were clustered with those of other Noctuidae species.The expressed levels of opsins in S.frugiperda were lower than in Helicoverpa armigera,suggesting a different phototactic response between the two species.Then,we determined the phototactic behavior of FAW using H.armigera as a control,which is widely monitored and managed using light traps in China.Our results indicated that the two moths species showed significantly different phototactic behavior and both female and male FAW displayed faster flight-to-light speed than H.armigera.This may be due to a faster flight capacity in FAW compared to H.armigera.However,the capture rate of both female and male of S.frugiperda was significantly lower than that of H.armigera,which was consistent with the expression levels of opsins.These results support the positive phototaxis of S.frugiperda moths and suggest light traps could be used for monitoring and managing the pests,but with a lower efficiency than H.armigera.

Modelling the impact of sea-level rise on urban flood probability in SE China

Urban drainage systems in coastal cities in SE China are characterized by often complex canal and sluicegate systems that are designed to safely drain pluvial flooding whilst preventing tidal inundation.However, the risk of coastal flooding in the region is expected to increase over the next 50-100 years, as urban areas continue to expand and sea-levels are expected to rise. To assess the impact of projected sealevel rise on this type of urban drainage system, a one-dimensional model and decision support tool was developed. The model indicated that although sea-level rise represents a significant challenge, flood probability will continue to be most influenced by rainfall. Events that are significant enough to cause flooding will most likely be minimally impacted by changes to the tidal frame. However, it was found that a sea-level rise of up to 1.2 m by 2010 would result in increased drainage times and higher volumes of over-topping when flooding occurs.

Influence of soil microorganisms and physicochemical properties on plant diversity in an arid desert of Western China

Soil microorganisms and physicochemical properties are considered the two most influencing factors for maintaining plant diversity.However,the operational mechanisms and which factor is the most influential manipulator remain poorly understood.In this study,we examine the collaborative influences of soil physicochemical properties(i.e.,soil water,soil organic matter(SOM),salinity,total phosphorus and nitrogen,pH,soil bulk density and fine root biomass)and soil microorganisms(fungi and bacteria)on plant diversity across two types of tree patches dominated by big and small trees(big trees:height≥7 m and DBH≥60 cm;small trees:height≤4.5 m and DBH≤20 cm)in an arid desert region.Tree patch is consists of a single tree or group of trees and their accompanying shrubs and herbs.It was hypothesized that soil physicochemical properties and microorganisms affect plant diversity but their influence differ.The results show that plant and soil microbial diversity increased with increasing distances from big trees.SOM,salinity,fine root biomass,soil water,total phosphorus and total nitrogen contents decreased with increasing distance from big trees,while pH and soil bulk density did not change.Plant and soil microbial diversity were higher in areas close to big trees compared with small trees,whereas soil physicochemical properties were opposite.The average contribution of soil physicochemical properties(12.2%-13.5%)to plant diversity was higher than microbial diversity(4.8%-6.7%).Salinity had the largest negative affect on plant diversity(24.7%-27.4%).This study suggests that soil fungi constrain plant diversity while bacteria improve it in tree patches.Soil physicochemical properties are the most important factor modulating plant diversity in arid desert tree patches.

Temporal sequence Object-based CNN(TS-OCNN) for crop classification from fine resolution remote sensing image time-series

Accurate crop distribution mapping is required for crop yield prediction and field management. Due to rapid progress in remote sensing technology, fine spatial resolution(FSR) remotely sensed imagery now offers great opportunities for mapping crop types in great detail. However, within-class variance can hamper attempts to discriminate crop classes at fine resolutions. Multi-temporal FSR remotely sensed imagery provides a means of increasing crop classification from FSR imagery, although current methods do not exploit the available information fully. In this research, a novel Temporal Sequence Object-based Convolutional Neural Network(TS-OCNN) was proposed to classify agricultural crop type from FSR image time-series. An object-based CNN(OCNN) model was adopted in the TS-OCNN to classify images at the object level(i.e., segmented objects or crop parcels), thus, maintaining the precise boundary information of crop parcels. The combination of image time-series was first utilized as the input to the OCNN model to produce an ‘original’ or baseline classification. Then the single-date images were fed automatically into the deep learning model scene-by-scene in order of image acquisition date to increase successively the crop classification accuracy. By doing so, the joint information in the FSR multi-temporal observations and the unique individual information from the single-date images were exploited comprehensively for crop classification. The effectiveness of the proposed approach was investigated using multitemporal SAR and optical imagery, respectively, over two heterogeneous agricultural areas. The experimental results demonstrated that the newly proposed TS-OCNN approach consistently increased crop classification accuracy, and achieved the greatest accuracies(82.68% and 87.40%) in comparison with state-of-the-art benchmark methods, including the object-based CNN(OCNN)(81.63% and85.88%), object-based image analysis(OBIA)(78.21% and 84.83%), and standard pixel-wise CNN(79.18%and 82.90%). The proposed approach is the first known attempt to explore simultaneously the joint information from image time-series with the unique information from single-date images for crop classification using a deep learning framework. The TS-OCNN, therefore, represents a new approach for agricultural landscape classification from multi-temporal FSR imagery. Besides, it is readily generalizable to other landscapes(e.g., forest landscapes), with a wide application prospect.

Dissolved organic matter tracers reveal contrasting characteristics across high arsenic aquifers in Cambodia:A fluorescence spectroscopy study

Organic matter in the environment is involved in many biogeochemical processes,including the mobilization of geogenic trace elements,such as arsenic,into groundwater.In this paper we present the use of fluorescence spectroscopy to characterize the dissolved organic matter (DOM) pool in heavily arsenicaffected groundwaters in Kandal Province,Cambodia.The fluorescence DOM (fDOM) characteristics between contrasting field areas of differing dominant lithologies were compared and linked to other hydrogeochemical parameters,including arsenic and dissolved methane as well as selected sedimentary characteristics.Absorbance-corrected fluorescence indices were used to characterize depth profiles and compare field areas.Groundwater fDOM was generally dominated by terrestrial humic and fulvic-like components,with relatively small contributions from microbially-derived,tryptophan-like components.Groundwater fDOM from sand-dominated sequences typically contained lower tryptophan-like,lower fulvic-like and lower humic-like components,was less bioavailable,and had higher humification index than clay-dominated sequences.Methane concentrations were strongly correlated with fDOM bioavailability as well as with tryptophan-like components,suggesting that groundwater methane in these arsenic-prone aquifers is likely of biogenic origin.A comparison of fDOM tracers with sedimentary OM tracers is consistent with the hypothesis that external,surface-derived contributions to the aqueous DOM pool are an important control on groundwater hydrogeochemistry.

Quantified gene expression levels for phase Ⅰ/Ⅱ metabolizing enzyme and estrogen receptor levels in benign prostate from cohorts designated as high-risk （UK） versus low-risk （India）for adenocarcinoma at this organ site：a preliminary study

Risk of clinically significant prostate adenocarcinoma （CAP） varies worldwide,although there is a uniform prevalence of latent disease. A hormone-responsive tissue,the prostate possesses the metabolizing capacity to biotransform a variety of environmental procarcinogens or endogenous hormones. Whether such metabolizing capacity or estrogen receptor （ER） status underlies these demographic differences in susceptibility to CaP remains unclear. With appropriate ethical permission,verified-benign tissues were obtained following transurethral resection of the prostate from a high-risk region （n = 12 UK-resident Caucasians） and a typically low-risk region （n = 14 India-resident Asians）. Quantitative gene expression analysis was employed for cytochrome P450 （CYP）1B1,N-acetyltransferase （NAT）1,NAT2,catechol-O-methyl transferase （ COMT）,sulfotransferase （ SULT） 1A1,ERα,ERβ and aromatase （CYP To quantify the presence or absence of CYP1B1,ERα or ERβ,and to identify ther in situ localization,immunohistochemistry was carried out. The two cohorts had reasonably well-matched serum levels of prostate-specific antigen or hormones. Expression levels for the candidate genes investigated were similar.However,clear differences in protein levels for CYP1B1 and ERβ were noted. Staining for CYP1B1 tended to be nuclear-associated in the basal glandular epithelial cells,and in UK-resident Caucasian tissues was present at a higher （P = 0.006） level compared with that from India-resident Asians. In contrast,a higher level of positive ERβ staining was noted in prostates from India-resident Asians. These study findings point to differences in metabolizing capacity and ER status in benign prostate tissues that might modulate susceptibility to the emergence of clinically significant CaP in demographically distinct populations.