垄作稻鱼鸡共生对水稻群体生长特性及产量形成的影响

为了探究水稻垄作栽培和稻鱼鸡共生模式的结合对水稻群体生长特性及产量形成的影响，在总结前人垄作栽培、稻鱼和稻鸡共生模式的研究基础上，提出了水稻垄作栽培养鸡养鱼的种养结合技术，通过设计常规水稻垄作栽培(CK)、水稻垄作养鱼(RF)、水稻垄作养鸡(RC)和水稻垄作养鸡养鱼(RFC)的田间对比试验，研究了不同垄作稻鱼鸡共生模式下的水稻群体生长特性和产量形成。结果表明：与CK处理相比，2年中RFC和RC处理的水稻平均产量能够维持稳定，平均有效穗、每穗总粒数、结实率和千粒重虽有差异，但均未达到显著性差异；RF处理水稻产量、有效穗、每穗总粒数、结实率和千粒重平均降幅分别为29.98%、19.70%、484%、3.99%和5.74%，且均达到显著性水平。2年中RFC、RC处理的茎、叶和穗的干物质平均积累量与CK处理整体不存在显著差异，但较RF处理均显著增加。RFC、RC和CK处理水稻茎和叶在齐穗前干物质积累量显著高于RF处理，平均增幅分别为56.23%、50.66%和54.15%，齐穗后干物质积累量的降幅慢于RF处理，并且维持叶面积指数在较高水平，平均增幅为41.38%、38.35%和38.23%。2年中RFC、RC和CK处理较RF处理均具有较高的群体生长速率、净同化率和光合势，其中群体生长速率增幅分别为77.94%、70.29%和7669%，净同化率为40.07%、39.47%和38.87%，光合势为38.39%、35.49%和35.94%，进而为稻穗积累更多的干物质量和产量的形成奠定基础。综上可知，垄作稻鱼鸡共生和垄作稻鸡共生利于水稻的干物质积累及叶面积指数、群体生长速率、净同化率和光合势的提高，进而保证水稻产量稳定。     

Abnormal development of genital organs in offspring male mice exposed to finasteride during pregnancy

AIM: To investigate the effects of finasteride exposure during pregnancy on the development of reproductive organs in offspring male mice. METHODS: CD-1 mice were treated with finasteride from 0 to 17 d after conception. The development of reproductive organs in the offspring male mice were observed by macroscopy, anatomical analysis and histological staining. The spermatogenesis was analyzed by immunofluorescence staining. RESULTS: Macroscopic observation showed that fenasteride exposure during pregnancy resulted in external genital malformations in the offspring male mice, which were manifested as incomplete scrotal fusion and penile malformation. In addition, the anogenital distance was significantly shortened (P<0.01). Histological staining showed that the length of penis at each stage was significantly shortened (P<0.01), the density of seminiferous tubules in testis and mature spermatozoa in seminiferous tubules were significantly decreased (P<0.01), and the luminal space size of seminiferous tubules and interstitial space size of testises were significantly increased (P<0.01). Immunofluorescence staining showed that the densities of Sertoli cells, Leydig cells and spermatogonium in testis were significantly reduced (P<0.01), and the fluorescence intensity of caspase-3 in spermatogenic tubule cells was increased significantly (P<0.01). However, the fluorescence intensity of Ki67 and desert hedgehog (Dhh) was decreased significantly (P<0.01). CONCLUSION: Finasteride exposure during pregnancy results in abnormal development of reproductive organs in offspring male mice and affects spermatogenesis.     

森林土壤动物生态功能研究进展

森林土壤动物是森林土壤生态系统中不可分割的重要组成部分，对森林土壤生态系统的物质循环和能量流动起着重要作用。文中综述了近10年森林土壤动物生态功能的相关研究进展，包括森林土壤动物对土壤理化性质、微生物、植物的影响以及外来土壤动物入侵对土壤生态系统的影响等；展望了我国森林土壤动物的未来研究方向，未来研究应多关注森林土壤动物生态功能的作用机制、森林土壤动物对全球变化的响应、外来土壤动物入侵对森林生态系统的影响、森林土壤动物种类的研究范围以及新技术的应用，以期为我国森林土壤动物生态功能、土壤动物与生态系统、可持续利用土壤动物等领域研究提供科学参考。     

A chronosequence study of purple paddy soils with respect to improving ammonium and potassium fertilization management

Journal of Soils and Sediments - Purple paddy soils cover about 66% of the paddy soils in Sichuan Basin. Complex interactions made the effects of potassium fertilizer application on NH4+ adsorption...     

基于深度学习的小浆果一体化智能采摘与分选研究进展

小浆果因具有较高的营养价值和保健作用深受人们喜爱，被国际市场誉为第3代水果。随着市场需求量的增加，林业小浆果的智能采摘与分选成为一种新的趋势。目前，由于现有技术自动化和智能化程度不高，导致大量人力、物力的投入。深度学习方法的飞速发展促进了检测技术的精确作业和检测精度的提高。文中概述了深度学习的发展进程，通过总结国内外关于深度学习方法在小浆果采摘与分选中的应用，提出深度学习方法在实际应用过程中存在的问题及解决措施，并展望深度学习方法在小浆果智能采摘与分选检测方面的发展趋势。     

Genetic effects of historical anthropogenic disturbance on a long-lived endangered tropical tree Vatica mangachapoi

The endangered Vatica mangachapoi,a longlived,tropical tree with economic and ecological importance found in Hainan,China,was used to assess the hypothesis that historical human activities in Hainan's tropical rain forest could have negative effects on the genetic diversity of V.mangachapoi.Three hundred and twenty individuals from 11 natural populations—which were classified into three groups according to levels of disturbance—were sampled and analyzed with ISSRmarkers.Although genetic diversity of V.mangachapoi is high at the species level,it is relatively low within populations.A significant genetic differentiation occurs among different disturbance levels.Significant isolation-by-distance indicated relevant historical anthropogenic changes.Our findings showed that historical human disturbances significantly increase the genetic differentiation and slightly decrease the genetic diversity of long-lived tree V.mangachapoi.Relevant targeting conservation actions were recommended.     

Time‐lapse monitoring of soil water content using electromagnetic conductivity imaging

The volumetric soil water content (θ) is fundamental to agriculture because its spatiotemporal variation in soil affects the growth of plants. Unfortunately, the universally accepted thermogravimetric method for estimating volumetric soil water content is very labour intensive and time‐consuming for use in field‐scale monitoring. Electromagnetic (EM) induction instruments have proven to be useful in mapping the spatiotemporal variation of θ. However, depth‐specific variation in θ, which is important for irrigation management, has been little explored. The objective of this study was to develop a relationship between θ and estimates of true electrical conductivity (σ) and to use this relationship to develop time‐lapse images of soil θ beneath a centre‐pivot irrigated alfalfa (Medicago sativa L.) crop in San Jacinto, California, USA. We first measured the bulk apparent electrical conductivity (EC_a – mS/m) using a DUALEM‐421 over a period of 12 days after an irrigation event (i.e. days 1, 2, 3, 4, 6, 8 and 12). We used EM4Soil to generate EM conductivity images (EMCIs). We used a physical model to estimate θ from σ, accounting for soil tortuosity and pore water salinity, with a cross‐validation RMSE of 0.04 cm³/cm³. Testing the scenario where no soil information is available, we used a three‐parameter exponential model to relate θ to σ and then to map θ along the transect on different days. The results allowed us to monitor the spatiotemporal variations of θ across the surveyed area, over the 12‐day period. In this regard, we were able to map the soil close to field capacity (0.27 cm³/cm³) and approaching permanent wilting point (0.03 cm³/cm³). The time‐lapse θ monitoring approach, developed using EMCI, has implications for soil and water use and management and will potentially allow farmers and consultants to identify inefficiencies in water application rates and use. It can also be used as a research tool to potentially assist precision irrigation practices and to test the efficacy of different methods of irrigation in terms of water delivery and efficiency in water use in near real time.     

Utilizing a DUALEM‐421 and inversion modelling to map baseline soil salinity along toposequences in the Hunter Valley Wine district

In the oldest commercial wine district of Australia, the Hunter Valley, there is the threat of soil salinization because marine sediments underlie the area. To understand the risk requires information about the spatial distribution of soil properties. Electromagnetic (EM) induction instruments have been used to identify and map the spatial variation of average soil salinity to a certain depth. However, soils vary with depth dependent on soil forming factors. We collected data from a single‐frequency and multiple‐coil DUALEM‐421 along a toposequence. We inverted this data using EM4Soil software and evaluated the resultant 2‐dimensional model of true electrical conductivity (σ – mS/m) with depth against electrical conductivity of saturated soil pastes (EC_p – dS/m). Using a fitted linear regression (LR) model calibration approach and by varying the forward model (cumulative function‐CF and full solution‐FS), inversion algorithm (S1 and S2), damping factor (λ) and number of arrays, we determined a suitable electromagnetic conductivity image (EMCI), which was optimal (R² = 0.82) when using the full solution, S2, λ = 3.6 and all six coil arrays. We conducted an uncertainty analysis of the LR model used to estimate the electrical conductivity of the saturated soil‐paste extract (EC_e – dS/m). Our interpretation based on estimates of EC_e suggests the approach can identify differences in salinity, how these vary with parent material and how topography influences salt distribution. The results provide information leading to insights into how soil forming factors and agricultural practices influence salinity down a toposequence and how this can guide soil management practices.     

A novel combined recirculating treatment system for intensive marine aquaculture

This study established a pilot‐scale recirculating treatment system that coupled an ecological process with a biological process to achieve adequate water quality and to minimize the water consumption for intensive marine culture. The recirculating treatment system consisted of a settling cell, a biofilter tank, a bivalve tank and gravel beds. The toxic pollutants, threatening the growth of bivalves, were reduced by the settling cell and the biofilter tank, so that the polyculture of shrimp and bivalves could be achieved. The living bivalve tank could function well as a remover of remaining small suspended solids (SS), and other pollutants. As the SS was reduced to a very low level by bivalve tank before the water flowing into the gravel beds, the risk of clogging was prevented. The studies suggested that the system maintained high removal efficiencies of SS, ammonium nitrogen () and nitrite nitrogen () and could contribute to the increase in shrimp yield.     

Structural and optical properties of cellulose nanocrystals isolated from the fruit shell of <Emphasis Type="Italic">Camellia oleifera</Emphasis> Abel

Cellulose nanocrystals (CNC) with high aspect ratio of 80 have been readily prepared from the inexpensive fruit shell of Camellia oleifera Abel (SCOA) for the first time. In this study, SOCA was consecutively subjected to alkali extraction, hydrogen peroxide bleaching and acid hydrolysis to remove non-cellulosic components and release CNC. The derived CNC possesses a needle-shaped structure that in average diameter and length of 6±2 nm and 500±100 nm, respectively. The crystallinity index of CNC increased to 72 % and the initial decomposition temperature raised to 230 oC. The obtained CNC was formed to nanopaper by vacuum filtration showing high visible light transmittance over 90 %. Thus SOCA derived CNC is of great practical potential to apply in the field of biomedicine, energy, packing, etc. Overall, this study is anticipated to offer new possibility for the CNC production from the inexpensive but abundant agricultural wastes.