基于多进制小波变换及多维纹理特征的遥感影像融合方法

探讨了基于多进制小波变换与多维纹理特征融合相结合的遥感影像融合方法。在融合过程中,首先对高分辨率全色影像和多光谱影像进行多进制小波分解,再联合提取局部方差、局部梯度、局部能量和局部信息熵4维纹理特征,将高分辨率影像的高频分量分别与多光谱影像的高频分量以多维纹理特征进行多判据联合方法融合,形成新的高频分量,然后与多光谱影像的低频分量进行多进制小波逆变换,最后经 RGB合成为彩色影像。试验选取淮南矿区SPOT 10 m与TM 30 m空间分辨率影像,从目视判读（定性评价）、地物光谱曲线分析、定量评价指标三方面对融合方法进行了评价。结果表明,该方法既保留了原影像的光谱信息,同时也改善了影像的清晰度和分辨率,利用融合后的影像进行矿区土地利用变化监测,效果明显提高。     

美国联邦政府农业研究组织建设及其借鉴意义

美国农业部农业研究局(United States Department of Agriculture Agricultural Research Service,USDA／ARS)是美国联邦政府农业部所属的主要农业研究机构。美国国会于1862年首次审定和批准由联邦政府支持的农业研究机构建制．即美国农业部所属的研究机构。在第二次世界大战前夕．农业部得到的联邦财政资金大约有40％用于农业研究。二战后,由农业部所属的各种研究机构共同组建成农业研究管理局(Agricultural Research Administration,ARA)。1953年,ARA重组为ARS。     

美国国家农业研究计划及特点

一、美国国家农业研究计划的主要内容 目前ARS正在组织实施的美国国家农业研究计划属于ARS战略计划2003-2007中的内容.其使命与职责是:通过科学研究发展和转移解决具有高度国家优先权的农业问题的知识、技术和方法,以及提供信息存取和分发;具体包括保证高质量、安全的食品和其他农产品的供应,评定美国人民的营养需要,维持一个具有竞争力的农业经济,提高自然资源的基数和环境质量,将农村公民、团体和社会作为一个整体并为他们提供经济机会.     

Dietary vitamin E requirement of sub‐adult genetically improved farmed tilapia strain of Nile tilapia (Oreochromis niloticus) reared in freshwater

A two‐factor orthogonal test was conducted to determine the dietary vitamin E (VE, dl ‐α‐tocopheryl acetate) requirement for sub‐adult GIFT strain of Nile tilapia (Oreochromis niloticus) at two lipid levels, and evaluate its effect on antioxidant responses. A basal diet containing 60 or 130 g/kg of soybean oil was supplemented with 0, 20, 40, 60, 120 and 240 mg VE/kg, respectively. Each diet was fed to three replicate groups of tilapia with initial weight (80.3 ± 0.7) g for 10 weeks. Results showed that the weight gain, feed efficiency and hepatic VE retention of fish were significantly increased by the increased VE in diets. In groups with 60 and 130 g/kg lipid, fish fed diets supplemented with VE had higher serum superoxide dismutase (SOD) and catalase activity, and lower malondialdehyde content than fish fed the VE un‐supplemented diet (p < .05). The proximate composition of fish had no significant difference in the group with 130 g/kg lipid, whereas crude lipid and ash content were significantly affected by dietary VE in the group with 60 g/kg lipid. Based on broken‐line regression analysis, dietary VE requirement to support the maximum weight gain and serum SOD were 43.2–45.8 and 66.0–76.1 mg/kg in diets with 60 and 130 g/kg lipid, respectively.     

Effects of ferulic acid on growth performance,immunity and antioxidant status in genetically improved farmed tilapia (Oreochromis niloticus) fed oxidized fish oil

A study was conducted to characterize the effects of dietary oxidized fish oil on the growth performance, immunity and antioxidant status of genetically improved farmed tilapia (Oreochromis niloticus) and to determine the role of ferulic acid on the oxidative damage induced by the oxidized fish oil. The tilapia (13.73 ± 0.31 g) were fed four experimental diets containing untreated (peroxide value, POV: 2.2 meq/kg) and highly oxidized (POV: 120.6 meq/kg) fish oil either with or without ferulic acid (0 or 400 mg/kg) supplementation for 12 weeks. From the results, the oxidized fish oil treatments increased antioxidant enzyme activities and MDA values but decreased the weight gain and the immunological parameters in tilapia. Meanwhile, the serum biochemical indices were significantly affected by the oxidized fish oil. Besides, the addition of ferulic acid partially counteracted the free radical‐induced damage and improved the health status of tilapia. In conclusion, the oxidized fish oil may induce oxidative stress, destroy liver, dysregulate lipid metabolism as well as reduce non‐specific immunity, and eventually result in growth inhibition of tilapia. The ferulic acid supplementation partially offset the negative effects of the oxidized fish oil on tilapia.     

Dietary α‐Ketoglutarate supplementation alleviates harmful effects of high environmental ammonia on grass carp,Ctenopharyngodon idella

Current intensive fish farming usually causes high environmental ammonia (HEA) in ponds that is toxic to fish. α‐Ketoglutarate (α‐KG) can be rapidly transaminated to glutamic acid and further aminated to glutamine. Therefore, we hypothesized that dietary α‐KG supplementation would alleviate HEA toxicity to fish. To test the hypothesis, 270 healthy grass carp (Ctenopharyngodon idella) juveniles were randomly assigned to control, HEA (18.37 mg/L ammonia) and HEA + α‐KG (0.75% of α‐KG) groups. Ammonia and free amino acid content in plasma and brain, liver glutamic pyruvic transaminase and glutamic oxaloacetic transaminase activity, and urea and glycogen content were measured on the first, seventh and 42nd days. Our results showed short‐term HEA exposure (1 day) led to a significant ammonia accumulation in the brain and plasma and significantly decreased glutamic and aspartic acid content in the brain and increased glutamine content in the brain and plasma. The long‐term HEA exposure (42 days) caused significant reductions in glycine and arginine content in the brain tissue. In most cases, dietary α‐KG supplementation alleviated the fluctuations in FAA content in the brain and plasma. Our results suggested dietary α‐KG alleviated HEA toxicity to grass carp.     

The effects of protein kinase A catalytic subunit on sperm motility regulation in Pacific abalone Haliotis discus hannai

Protein kinase A plays a central role in the regulation of sperm motility from echinoderms to mammals, but the information about its regulatory role in molluscs is very limited. In this study, a protein kinase A catalytic subunit (designated as HdPKA‐C) was identified from Pacific abalone Haliotis discus hannai. The open reading frame of HdPKA‐C was of 1,077 bp, encoding a peptide of 358 amino acids with a typical protein kinase domain. HdPKA‐C shared 82%–87% sequence similarities with other PKA‐Cs, and it was clustered first with gastropod PKA‐Cs in the phylogenetic tree. The mRNA of HdPKA‐C was constitutively expressed in examined tissues, with the highest level detected in hepatopancreas. The phosphorylated form of HdPKA‐C (p‐HdPKA‐C) was localized at the acrosome, connecting piece and flagellum of spermatozoa with variable intensity. Its phosphorylated substrates were also detected in these regions with much lower intensity at the connecting piece. The inhibition of HdPKA‐C activity with H‐89 led to a significant reduction in the percentage of motile sperm and sperm velocities. p‐HdPKA‐C was detected by Western blot in strip‐spawned sperm, naturally spawned sperm and H‐89‐treated sperm with almost the same intensity. The intensity of p‐HdPKA‐C substrates in naturally spawned sperm was higher than that in strip‐spawned sperm, and it was roughly the same as that in H‐89‐treated sperm except for two bands at 50 and 60 kDa. These results collectively indicated that HdPKA‐C played an important role in the regulation of abalone sperm motility by altering its substrates phosphorylation.     

水稻田磷径流流失特征初步研究

在自然降雨条件下,原位研究了广东省典型稻田地表径流氮磷输出的动态流失特征。结果表明,降雨量与产流量之量极显著正相关,但对P素流失量无明显影响;与未施肥对照(F0)相比,常规施肥(F)对P素流失没有显著影响（p > 0.05）,P素流失形态以颗粒态磷(pp)为主。     

Establishment of a crop evapotranspiration calculation model and its validation

In order to contribute knowledge on the method used to calculate the actual crop evapotranspiration, soil, crop, atmosphere, and water spatial structure were integrated into a complete system. Based on the energy balance equation and aerodynamic equation, the meteorological data was reduced and the crop physiological parameter was increased, then the crop evapotranspiration calculation model under natural conditions was derived. The crop evapotranspiration calculation model was verified by the water balance formula using data generated from corn, potato, and flue-cured tobacco grown under field conditions for three consecutive years from 2017 to 2019. The results showed that: from 2017 to 2019, the average root mean square error for measured and calculated evapotranspiration of corn, potato, and flue-cured tobacco at different growth times were 0.5948, 0.4753, and 0.3326, respectively, the mean deviation, mean absolute error, and mean relative error were small, and the coefficient of determination and consistency index were both greater than 0.9100. The measured and calculated crop evapotranspiration of the selected crops increased at first and then decreased gradually as the crops matured, and finally decreased to harvest evapotranspiration, showing a parabolic trend. The crop evapotranspiration calculation model not only reflects the actual evapotranspiration of crops at different growth time but also reflects the change law of actual crop evapotranspiration. The model does not need the correction of soil moisture content, irrigation method, and crop coefficient and can directly calculate the actual crop evapotranspiration. It has the characteristics of consistency between the calculated value and the measured value, strong applicability, simple calculation process, and high accuracy and has the best effect on monitoring soil moisture and crop water shortage sensitivity. The model is significance in that it guides for monitoring soil moisture, determining actual crop evapotranspiration, crop water shortage index, and high yield and efficiency under water-saving conditions.     

玉米秸秆微贮营养价值的变化及对肉羊生长性能影响的研究

本试验将玉米秸秆进行微贮,检测了微贮后营养价值的变化及其对肉羊生长性能的影响。研究表明,玉米秸秆微贮后,湿润、具酒香味、质地柔软、适口性好,中性洗涤纤维（NDF）、干物质（DM）及酸性洗涤纤维（ADF）值显著下降,粗蛋白（CP）值显著升高。结果显示,微贮玉米秸秆后,营养价值得到有效的改善;玉米秸秆微贮后饲喂肉羊,试验组肉羊日增重较对照组增加21.76 %。