柚皮的综合利用及色素稳定性研究

设计了一套柚皮综合利用的方法,分别用水蒸气地和混合盐析法提取其中的香油、色素、果胶,并对柚皮红棕色素的稳定性作了研究。结果发现该色素在酸性条件下非常稳定,有机酸、糖类及Mg^2 等对该色素影响不大。本研究可为柚皮资源的开发利用提供重要的理论依据和方法。     

城市生活垃圾堆肥及垃圾专用肥对柑桔增产效应

城市生活垃圾堆肥及垃圾堆肥配制的专用肥对柑桔的肥效实验结果表明，垃圾堆肥作为基肥使用比常规施肥能使柑桔增产１２．４％－１４．５％，比空白对照增产７４．７％，施用垃圾专用肥的柑桔产量比常规施肥增产４．２％－５０．３％，比空白对照增产５８．４％－１２９．０％。施垃圾肥柑桔的营养成份（如维Ｃ，还原糖等）和常规施肥没有明显差异，也未发现重金属对桔子的污染。     

应用土壤肥力系统研究法诊断芒果国土壤的矿质营养

广东省赤红壤垦种芒果后，土壤的矿质营养状况基本上改善不大，地力产量仍然很低。应用土壤肥力系统研究法诊断土壤营养元素的结果表明，其缺素效应排序为：Ｎ＞Ｐ、Ｃａ＞Ｋ＞Ｍｇ；土壤Ｆｅ和Ｃｕ无缺素反应，而Ｓ、Ｂ、Ｍｎ、Ｍｏ和Ｚｎ有个别土样显示缺素效应，对这些元素丰缺的确切结论，有待进一步研究。     

Effects of five insecticides used in apple orchards on Hyaliodes vitripennis (say) (Hemiptera: Miridae)

Abstract

Azinphos‐methyl, carbaryl, dimethoate, phosmet and phosalone were used in apple orchards to manage apple aphid, apple maggot, woolly apple aphid and leaf eating caterpillars. Among the five insecticides evaluated, dimethoate, carbaryl and azinphosmethyl were the most toxic to the nymphs and adults of Hyaliodes vitripennis (Say) from two regions. Phosalone was the least toxic. Nymphs were more resistant than the adults. While the LC₅₀ for dimethoate was 130 ppm for nymphs, it was 3 ppm for adults from St. Jean‐Baptiste‐de‐Rouville. There were also significant differences in the level of resistance between the two regions where the H. vitripennis were collected. At St. Alexandre the LC₅₀ for phosalone on nymphs was 19, 250 ppm whereas, at St. Jean‐Baptiste‐de‐Rouville it was 160, 000 ppm.     

集约化柑橘种植抑制土壤磷循环微生物活性

微生物是调节土壤磷循环的关键驱动力.阐明土壤解磷菌的微生物矿化过程对于提高植物养分吸收率和作物产量具有重要意义.通过测定柑橘园与毗邻的自然林地土壤编码碱性磷酸酶基因（phoD）丰度、解磷细菌群落多样性和土壤无机磷组分,探究柑橘种植对土壤微生物获取磷策略的影响机制.结果表明,柑橘种植导致土壤pH下降,土壤有效磷累积,ω（有效磷）平均值高达112 mg·kg^-1,显著高于毗邻的自然林地（3.7 mg·kg^-1）.柑橘种植也会影响土壤磷素组成,柑橘土壤含有较高的可溶态磷（CaCl₂-P）、柠檬酸提取态磷（Citrate-P）和矿物结合态磷（HCl-P）.自然林地土壤各磷组分均显著低于柑橘土壤,而phoD基因丰度和碱性磷酸酶活性显著高于柑橘土壤.高通量测序结果表明,柑橘土壤解磷细菌Shannon指数（4.61）显著低于自然林地（5.35）,群落结构也有别于自然林地.柑橘种植改变了土壤解磷菌的群落组成,自然林地变形菌门的相对丰度显著低于柑橘土壤.土壤有效磷含量与碱性磷酸酶活性呈显著负相关,表明土壤高磷累积抑制土壤解磷细菌的活性.柑橘种植改变了土壤微生物对磷的获取策略,在柑橘园中,土壤微生物主要依赖外源磷,而自然林地土壤微生物主要以微生物分泌碱性磷酸酶矿化有机磷来获取磷的方式满足其生长需求.     

利用柑桔加工过程中的废物生产纤维素酶发酵饲料

利用柑桔加工过程中废物提取有用物质后 ,再进行固体发酵生产纤维酶发酵饲料的研究 ,筛选到一株具有较高纤维素酶的青霉菌株。其最适固体培养基配方为 :桔皮∶豆饼∶麸皮 =15∶1∶1,碳酸铵质量分数为 3% ,物料∶水 =2∶1,pH值为 4 5 ;最佳产酶条件为 :培养温度为 30℃ ,培养时间为 84h左右。为柑桔加工过程中所产的废物提供了一条变废为宝 ,解决环境污染的新途径。      

A review on the potential of citrus waste for D-Limonene,pectin, and bioethanol production

Citrus peel waste is a valuable lignocellulosic feedstock for bioethanol production due to its richness in fermentable sugars and low lignin content. Citrus peel contains two major value-added products: d-limonene and pectin. d-Limonene is widely used in food, cosmetics, and pharmaceutical industries. However, it acts as a microbial growth inhibitor for yeast during the fermentation process and hence it has to be removed prior to fermentation. Pectin is used as thickening agent, gelling agent, and stabilizer in the food industry. Since pectin increases the viscosity of the fermentation medium and makes fermentation troublesome, it has to be either extracted or degraded into galacturonic acid using pectinase enzyme. Thus, the removal and recovery of both D-limonene and pectin from citrus peel are essential for better fermentation. For bioethanol production, pretreatment plays a crucial role in the utilization of citrus peels since the reduction of d-limonene concentration to less than 0.05% is necessary. This review solely describes the potential of citrus waste for value added products such as d-limonene and pectin and the production of bioethanol from citrus peel waste is discussed in detail.     

Spatial and temporal variation of nitrogen exported by runo from sandy agricultural soils

The eutrophication problem has drawn attention to nutrient leaching from agricultural soils, and an understanding of spatial and temporal variability is needed to develop decision-making tools. Thus, eleven sites were selected to monitor, over a two-year period, spatial and temporal variation of runoff discharge and various forms of N in surface runoff in sandy agricultural soils. Factors influencing the variation of runoff discharge and various forms of N in surface runoff were analyzed. Variation of annual rainfall was small among 11 sites, especially between 2001 and 2002. However, variation of annual discharge was significant among the sites. The results suggest that rainfall patterns and land use had significant effect on discharge. The concentrations of total N, total kjeldahl N （TKN）, organic matter-associated N （OM-N）, NO3- -N, and NHn＋-N in the runoff ranged widely from 0.25 to 54.1, 0.15 to 20.3, 0.00 to 14.6, 0.00 to 45.3, and 0.00 to 19.7 mg/L, respectively. Spatial and temporal variations in the N concentration and runoff discharge were noted among the different sites. Annual loads of N in the runoff varied widely among monitoring sites and depend mainly on runoff discharge. High loads of total N, OM-N, NO3--N, and NHn＋-N in the runoff either in citrus groves or on vegetable farms occurred from June to October for each year, which coincided with the rainy season in the region. This study found that N in surface runoff was related to rainfall intensity, soil N level, and fertilizer use.     

缙云山柑橘林土壤微生物磷脂脂肪酸(PLFAs)及酶活性的季节变化特征

土壤微生物和土壤酶作为土壤生态环境最重要的组成成分,对环境变化敏感.本文以缙云山柑橘林为研究对象,采用磷脂脂肪酸法并结合主成分分析方法,分析季节更替对柑橘林土壤表层(0~20 cm)的土壤微生物数量、群落结构特征及酶活性等的影响.结果表明:1季节更替对土壤微生物有显著影响(P0.05),16:0、i17:0、16:1 2OH、18:0、cy19:0ω8c、i17:1ω9c或16:0 10-methyl为4个季节共有PLFAs,含量之和分别占PLFAs的49.57%、41.63%、35.41%和38.05%.各微生物种类中,细菌PLFA比例最高,其次为真菌PLFA,放线菌PLFA比例最低,且均具有显著的季节变化特征,柑橘林土壤PLFAs总量变幅为6.868~24.085 nmol·g-1,大小顺序为春季秋季冬季夏季,细菌PLFAs、G-、G+及放线菌PLFAs也呈现一致的变化规律,但真菌PLFAs则表现为秋季最高,其次是冬季和夏季,春季最低.季节更替对微生物群落多样性指数亦产生显著影响,丰富度指数(R)随季节变化依次为春冬秋夏,多样性指数(H')随季节变化表现出冬秋春夏,均匀度指数(J)表现为夏秋冬春,优势度指数(D)则随季节表现为直线升高的变化趋势.2土壤脲酶随季节变化表现为夏季春季秋季冬季;土壤蔗糖酶、土壤过氧化氢酶和酸性磷酸酶活性随季节变化均表现为秋季最高,其次是春季、夏季,冬季最低.3主成分分析结果表明细菌PLFAs、G+、G-、放线菌PLFAs和总PLFAs对土壤肥力贡献最大,其次是蔗糖酶、过氧化氢酶、酸性磷酸酶和真菌PLFAs,贡献最小为脲酶.