延安北部丘陵沟壑区退耕还林(草)成效的遥感监测

将延安北部丘陵沟壑区的吴起、志丹、安塞、子长、延川、延长和宝塔等7县区做为一个整体,利用GIS综合解译分析SPOTVGT、NOAA/AVHRR、EOS/MODIS、TM和DEM数据,揭示该区域退耕还林(草)生态建设工程所取得的实效。1998-2009年NOAA/AVHRR和EOS/MODIS遥感监测表明,该区域在遥感影像图上凸现,在其北部和西部形成一条明显的与行政区边界相吻合的分界线,表明退耕还林后植被覆盖状况正在逐年改善,而且植被恢复情况明显好于其北部和西部。1999-2007年SPOTVGTNDVI演变表明,该区域NDVI正处于快速上升阶段,线性趋势值为0.0078,与其南部次生林区的NDVI差值在明显减小,与北部粮食种植区的NDVI差值在逐渐加大。退耕前后的TM影像解译结果对比分析说明,延安北部近年来退耕还林(草)的成绩是显著的,生态环境有了明显的改善。与1997年相比,到2007年延安北部有68.37%耕地不再耕种,而大于35°的坡耕地91.45%实现了退耕,25-35°的坡耕地有74.70%退耕,绝大部分高坡度耕地实现了退耕,而较低坡度的坡耕地退耕幅度也很大,达到了50%-70%。退出的耕地主要变为草地、林地和果园。TM影像解译结果表明,林草覆盖度增加非常显著,达到65.3%,增加24.3%,以草的面积增加最为明显。低植被覆盖度的土地面积在大幅度减少,植被覆盖度小于10%的面积减少了83.42%;中植被覆盖度面积在显著增加,到2007年,植被覆盖度在30%-50%的面积最大,占总面积的47.2%,将近一半;高植被覆盖度面积也明显增加,由1997年的6%增加到2007年22%。TM影像与DEM数据叠加分析表明,土壤侵蚀强度总体上降低,强度、极强度和剧烈等级土壤侵蚀的土地面积减少50%以上,但极强度和剧烈的高等级土壤侵蚀面积仍占2007年国土总面积的13.3%,土壤侵蚀状况仍然严重。植被以灌木和草为主,乔木面积较低,森林覆盖率只有22.4%,因此需要继续加强治理。     

在黄土丘陵区土质路面种草

土质道路水土流失是所有人工生态系统中最严重的土地利用类型,土壤侵蚀模数是相同条件下林地的250倍,农村道路修筑破坏了区域生态景观的完整性,为景观生态修复理论与技术研究提供了重要的实验场地。广大山区农村田间地块道路在种植和收获季节以外长期处于闲置状态,这为植物的种植和生长提供了可能。1997～2001年,以中国黄土丘陵区陕西省延安市小砭沟小流域农田道路为背景,以防止和减轻路面汇流引发的水土流失对道路的破坏和修复农村道路景观生态系统为目的,采用小区径流监测、施工统计和定点观测的方法,在路面进行了为期5a的种草实验。研究结果显示,农田作业道路路面不仅可以种草,而且具有一定生态经济价值,在条播下,胡枝子、小冠花、无芒雀麦每km年产值可达1068.88～3150.27元;同时,路面牧草可承受适度的通行压力,禾本科牧草一般可承受300t·次/a以下车辆碾压;道路种植禾本科牧草后,除有机质外,土壤中其它营养成份均有不同程度的亏损,因此有必要补充各种肥料延长路面牧草使用年限和提高牧草防蚀能力;路面种草后径流量减少46.15%～69.30%,土壤侵蚀量减少54.53%～77.80%,建设成本仅为石子路的27.69%～35.99%,维护费用仅为土质道路的30.52%,是一种经济可行的技术途径。道路种草后,路面雨季泥泞、旱季尘土飞扬的劣质景观被蜿蜒的绿色道路景观所取代,形似镶嵌在绵延山谷中的绿飘带,这无论在理论还是技术方面都是生态修复学和景观生态学研究的重要方向之一。     

Decoupling the retention time of easily degradable and persistent substances using ultrafiltration membranes increases biogas production yield

The decoupling of the retention time of easily degradable and persistent substances relieves the degradation process from inhibitors and increases the biogas yield. Anaerobic digestion of maize silage was investigated in a pilot‐scale plant with a coupled ultrafiltration membrane. The aim of the study was the evaluation of the influence of the membrane‐based relief of the degradation process and the increase of the retention time of persistent substances. For that purpose, the fermenter content was separated into solid and liquid fractions. The solid fraction was recirculated to the fermenter for longer retention time and higher substrate degradation rates. The fermentation process was improved by the removal of the liquid fraction and adding volatile fatty acids. The results showed an increase of the biogas yield by 7.2% in comparison to the anaerobic digestion without membrane filtration.     

草鱼胰岛素样生长因子-Ⅰ基因在大肠杆菌中的表达

 为构建草鱼 (Ctenopharyngodonidellus )胰岛素样生长因子 Ⅰ (IGF Ⅰ )大肠杆菌表达质粒 ,对已克隆到的草鱼IGF Ⅰ基因进行改造 .改造后的基因去除了原cDNA的信号肽和E区序列 ,并在基因的两端分别加入起始密码子和终止密码子 .将改造后的编码草鱼IGF Ⅰ成熟肽基因亚克隆到pBV 2 2 0中 ,构建成表达质粒pBVgIGF7.转化大肠杆菌 (Escherichiacoli)进行表达 .SDS PAGE显示 ,含重组表达质粒的菌株经热诱导后表达出一约 7 5kD的特异蛋白 .表达量占菌体总蛋白的2 0 0 3% ,表达产物主要以包涵体形式存在 .重组蛋白经纯化和复性后 ,采用MTT法测定其对草鱼吻端成纤维细胞PSF和草鱼卵巢细胞CO的促增殖作用 .结果表明 ,所获得的重组草鱼IGF Ⅰ具有生物活性     

高寒山区植物根抗氧化酶系统的季节变化与抗冷冻关系

在高寒山区（海拔2900m）和选取4种多年生草本植物,即无芒雀麦（Bromus inermis）、草地早熟禾（Poa sphyondylodes）、花誉麦（Bromus sinensis）和垂重申披碱草（Elymus nutans）,测定了秋末、冬初、冬季、春季气温变化过程中其根中丙二醛（MDA）含量和抗氧酶活力（过氧化氢酶（CAT）、过氧化物酶（POD）、超氧物歧化酶（SOD））和抗坏血酸氧化酶（APX）变化,分析了抗氧酶系统在根抗冷适应中的作用,结果表明,随秋末降温植物根中MDA含量增加,尔后下降,在冬季和翌年春季保持相对稳定。从9月初到10月下旬,4种植物根中SOD、CAT、POD活力平均增加170％、130％和56％。在冬季下降,但仍远高于9月,在春季气温上升过程中酶活力上升。根能在组织结冰状况下生存与其具备完善的保护酶系统,能及时清除氧自由基抑制膜脂过氧化维持膜完整性有关,据降温过程中MDA含量和抗氧酶活力变化,可将根冷适应分为两个阶段,即第1阶段平均气温在0℃以上,抗氧酶活力增强,MDA增加阶段,第2阶段平均气温降至0℃以下,最低气温降到－15℃以下,抗氧酶活力下降,MDA无明显变化阶段。     

Uncertainty in research about key invasion characteristics limits the evaluation of exotic perennial grasses in natural systems in New South Wales,Australia

Exotic perennial grasses (EPGs) pose a significant risk to native communities globally. With over 2,200 species in Australia, understanding which characteristics enable high threat invasions, and comparing between functionally similar EPGs, can help prioritise species management. We developed a framework of risk and used the literature to rank 21 EPGs considered a threat to plant communities in New South Wales, while also evaluating the reliability of information currently available. Characteristics were scored within five broad categories that distinguish invasiveness: Arrival, Establishment, Persistence, Impact and Distribution. These included aspects of reproductive biology, competitive ability and environmental tolerance. The risk assessment was effective in assessing key characteristics of invasion. EPGs with an economic benefit (trade‐off species) were more likely to have reliable research and frequently ranked as high‐risk invaders in natural habitats due to the overlap of characteristics important in invasion with those considered important in agriculture. Lack of formal scientific research hindered assessment for some species, and some traits had been poorly assessed in the literature. High uncertainty was associated with key characteristics for Establishment, Persistence and Impact. Uncertainty in key characteristics revealed a need for improved integration of less formal research validated by more formal scientific research. This may lead to more informed decisions in the management of EPGs in native habitats and assist in early control of EPGs not yet assessed.     

The effects of lactic acid bacteria inoculants and formic acid on the formation of biogenic amines in grass silages

Silages were prepared in six laboratory experiments from four direct-cut grassland swards and pure swards of perennial ryegrass and false oat with dry matter contents ranging between 180 and 325?g/kg. Grass was fermented at 22°C and silages were stored at the same temperature for 4 months. Untreated silages (negative control) and silages preserved with 3?g/kg of formic acid (positive control) were compared with silages inoculated with commercial strains of Lactobacillus plantarum, Lactobacillus buchneri and a mixed preparation Microsil. The inoculants were applied at a dose of 5.10⁶ CFU/g of grass. Seven biogenic amines were extracted from silages with perchloric acid and determined as N-benzamides by micellar electrokinetic capillary chromatography. Common chemical quality parameters of silages were also determined. Tyramine, cadaverine and putrescine were the amines occurring at the highest concentration. As compared to untreated silages, formic acid was most effective to suppress formation of the main amines. Also the inoculants often decreased amine contents significantly (P?相似文献   

Estimation of the maintenance energy requirements,methane emissions and nitrogen utilization efficiency of two suckler cow genotypes

Seventeen non-lactating dairy-bred suckler cows (LF; Limousin×Holstein-Friesian) and 17 non-lactating beef composite breed suckler cows (ST; Stabiliser) were used to study enteric methane emissions and energy and nitrogen (N) utilization from grass silage diets. Cows were housed in cubicle accommodation for 17 days, and then moved to individual tie-stalls for an 8-day digestibility balance including a 2-day adaption followed by immediate transfer to an indirect, open-circuit, respiration calorimeters for 3 days with gaseous exchange recorded over the last two of these days. Grass silage was offered ad libitum once daily at 0900 h throughout the study. There were no significant differences (P>0.05) between the genotypes for energy intakes, energy outputs or energy use efficiency, or for methane emission rates (methane emissions per unit of dry matter intake or energy intake), or for N metabolism characteristics (N intake or N output in faeces or urine). Accordingly, the data for both cow genotypes were pooled and used to develop relationships between inputs and outputs. Regression of energy retention against ME intake (r²=0.52; P<0.001) indicated values for net energy requirements for maintenance of 0.386, 0.392 and 0.375 MJ/kg^0.75 for LF+ST, LF and ST respectively. Methane energy output was 0.066 of gross energy intake when the intercept was omitted from the linear equation (r²=0.59; P<0.001). There were positive linear relationships between N intake and N outputs in manure, and manure N accounted for 0.923 of the N intake. The present results provide approaches to predict maintenance energy requirement, methane emission and manure N output for suckler cows and further information is required to evaluate their application in a wide range of suckler production systems.     

Effects of nitrogen fertilisation rate and maturity of grass silage on methane emission by lactating dairy cows

Grass silage is typically fed to dairy cows in temperate regions. However, in vivo information on methane (CH₄) emission from grass silage of varying quality is limited. We evaluated the effect of two rates of nitrogen (N) fertilisation of grassland (low fertilisation (LF), 65 kg of N/ha; and high fertilisation (HF), 150 kg of N/ha) and of three stages of maturity of grass at cutting: early maturity (EM; 28 days of regrowth), mid maturity (MM; 41 days of regrowth) and late maturity (LM; 62 days of regrowth) on CH₄ production by lactating dairy cows. In a randomised block design, 54 lactating Holstein–Friesian dairy cows (168±11 days in milk; mean±standard error of mean) received grass silage (mainly ryegrass) and compound feed at 80 : 20 on dry matter basis. Cows were adapted to the diet for 12 days and CH₄ production was measured in climate respiration chambers for 5 days. Dry matter intake (DMI; 14.9±0.56 kg/day) decreased with increasing N fertilisation and grass maturity. Production of fat- and protein-corrected milk (FPCM; 24.0±1.57 kg/day) decreased with advancing grass maturity but was not affected by N fertilisation. Apparent total-tract feed digestibility decreased with advancing grass maturity but was unaffected by N fertilisation except for an increase and decrease in N and fat digestibility with increasing N fertilisation, respectively. Total CH₄ production per cow (347±13.6 g/day) decreased with increasing N fertilisation by 4% and grass maturity by 6%. The smaller CH₄ production with advancing grass maturity was offset by a smaller FPCM and lower feed digestibility. As a result, with advancing grass maturity CH₄ emission intensity increased per units of FPCM (15.0±1.00 g CH₄/kg) by 31% and digestible organic matter intake (33.1±0.78 g CH₄/kg) by 15%. In addition, emission intensity increased per units of DMI (23.5±0.43 g CH₄/kg) by 7% and gross energy intake (7.0±0.14% CH₄) by 9%, implying an increased loss of dietary energy with advancing grass maturity. Rate of N fertilisation had no effect on CH₄ emissions per units of FPCM, DMI and gross energy intake. These results suggest that despite a lower absolute daily CH₄ production with a higher N fertilisation rate, CH₄ emission intensity remains unchanged. A significant reduction of CH₄ emission intensity can be achieved by feeding dairy cows silage of grass harvested at an earlier stage of maturity.