不同甘蔗品种对低温胁迫的生理响应及耐寒性综合评价

本研究以甘蔗的3个杂交品种（ROC22、Co281、KQ01-1390）和3个原种（28NG16、57NG155、96NG16）为供试材料,研究低温胁迫对成熟期蔗株的形态、叶片的质膜相对透性、蔗茎的渗透调节物质含量及抗氧化酶活性等指标的影响,并对6个品种甘蔗耐寒性进行评价。结果表明：经-3 ℃夜间低温处理3 d后,甘蔗植株均出现叶片干枯、卷曲,生长点损伤或坏死变黑,蔗茎侧芽发黑、变软等症状,纵剖蔗茎可明显看到茎内组织呈水煮状,蔗叶相对电导率上升,蔗茎丙二醛（MDA）、脯氨酸（Pro）含量和过氧化氢酶（CAT）活性均上升,蔗茎超氧化物歧化酶（SOD）和过氧化物酶（POD）活性下降。通过隶属函数法综合评价,6个甘蔗品种耐寒能力依次为：KQ01-1390>Co281>ROC22> 28NG16>57NG155>96NG16,可见供试材料中的甘蔗原种对低温胁迫反应敏感,耐寒性比杂交品种弱。     

亚精胺浸种对番茄种子萌发及幼苗高温抗性的影响

以番茄品种合作903为试验材料,设置0、0.1、0.2、0.4 mmol · L~(-1 )亚精胺(Spd)浸种10 h,研究不同浓度Spd浸种对番茄种子萌发、幼苗生长及高温抗性的影响。结果表明:不同浓度Spd浸种处理均能显著提高番茄种子的发芽指数和活力指数,幼苗地下部干质量和壮苗指数明显提高,其中0.2 mmol · L~(-1 )Spd浸种处理发芽最快,活力指数最高。Spd浸种处理降低了高温胁迫下番茄叶片的相对电解质渗透率、丙二醛(MDA)和H_2O_2含量,其中0.2 mmol · L~(-1 )Spd处理的相对电解质渗透率、MDA和H_2O_2含量最低;抗氧化酶(SOD、APX、DHAR)活性增加,并在0.2 mmol · L~(-1)时达到最大值。综上,0.2 mmol · L~(-1 )Spd浸种能有效促进番茄种子萌发和幼苗生长,提高番茄幼苗高温抗性。     

低氮胁迫对谷子苗期性状的影响和耐低氮品种的筛选

筛选和培育耐低氮能力强的作物品种,是提高作物氮素利用效率,减少氮肥施用量,降低环境污染的有效措施。本研究以45份谷子品种为试材,采用水培的方法,在低氮(0.1mmol·L~(-1))和正常氮(5mmol·L~(-1))条件下,测定苗高、根长和根数等22个氮效率相关指标,采用综合耐低氮系数法以及基于主成分分析的隶属函数法评价参试谷子品种的耐低氮性。结果表明,与正常氮条件相比,低氮胁迫下,谷子苗期根长、根冠比、地上部氮素生理效率、地下部氮素生理效率、单株氮素生理效率有不同程度提高,其余17个指标都有不同程度降低。两种评价方法均根据45个谷子品种的耐低氮能力将其划分为强耐低氮型、耐低氮型、中间型、较敏感型和敏感型5类。筛选出耐低氮性较强的品种5份,编号分别为11、14、17、35和39。利用GGE双标图对品种-耐低氮相关指标的分析表明,编号39和14的耐低氮品种主要耐低氮性状为地下部干重、地下部鲜重、根长;编号为11、35和17的耐低氮品种主要耐低氮性状为地上部鲜重、叶片数、叶宽、叶长、单株氮累积量、地上部氮累积量、单株干质量、地上部干重、地下部氮累积量、根数、苗高和SPAD。可见不同谷子品种的耐低氮机制存在一定差异,研究结果可为谷子耐低氮品种的选育提供材料基础。     

板式家具设计与制造中的减碳技术与应用

随着我国对环保的日益重视,以人造板为主要原料的板式家具适应绿色健康发展理念。介绍了板式家具主要材料以及板式家具主要原材料分类,分析了板式家具设计与制造中的减碳技术,为板式家具设计及制造企业能获得更好的社会和经济效益提供参考。     

Thresholds,sensitive stages and genetic variability of finger millet to high temperature stress

Finger millet [Eleusine coracana (L.) Gaertn.] is an important coarse cereal crop grown in the arid and semi‐arid regions and often experiences high temperature (HT) stress. The objectives of this research were (i) to quantify effects of season‐long HT stress on physiological and yield traits, (ii) to identify the developmental stages most sensitive to HT stress and (iii) to quantify the genetic variability for HT stress tolerance in finger millet. Research was conducted in controlled environment conditions. HT stress decreased the chlorophyll index, photosystem II activity, grain yield and harvest index. Maximum decrease in number of seeds per panicle and grain yield per plant was observed when stress was imposed during booting, panicle emergence or flowering stages. Maximum genotypic variation was explained by panicle width and number of seeds per panicle at optimum temperature (OT) and grain yield per plant at HT and number of seeds at HT. Based on the stress response and grain yield, tolerant or susceptible genotypes were identified. Finger millet is sensitive to HT stress during reproductive stages, and there was genotypic variability among the finger millet genotypes for number of seeds per panicle and grain yield under HT, which can be exploited to enhance stress tolerance.     

Temperature modulates liver lipid accumulation in Atlantic salmon (Salmo salar L.) fed low dietary levels of long‐chain n‐3 fatty acids

Atlantic salmon (Salmo salar) were fed five graded levels of eicosapentaenoic acid (EPA, 20:5n‐3) and docosahexaenoic acid (DHA, 22:6n‐3), from 1.4 to 5.2% of total fatty acids (FA, 5–17 mg kg^?1 feed), and grew from ~160 g to ~3000 g, with the period from 1450 g onwards conducted both at 6 °C and at 12 °C. All fish appeared healthy, and there were no diet‐related differences in haematological or plasma parameters, as well as intestinal histological or gut microbiota analysis. Fish reared at 6 °C had higher accumulation of storage lipids in the liver compared to fish reared at 12 °C. Liver lipids also increased with decreasing dietary EPA + DHA at 6 °C, while there was no such relationship at 12 °C. Gene expression of SREBP1 and 2, LXR, FAS and CPT1 could not explain the differences in liver lipid accumulation. In liver polar lipids, DHA was found to be reduced when dietary EPA + DHA was <2.7% of FAs, while the level of EPA in the membranes was not affected. In conclusion, reducing dietary EPA + DHA from 5.2 to 1.4% of total FAs had a minor impact on fish health. Temperature was the factor that most affected the liver lipid accumulation, but there was also an interaction with dietary components.     

Influence of climate and abundance on migration timing of adult Atlantic salmon (Salmo salar) among rivers in Newfoundland and Labrador

Evidence mounts for the influence of climate variability on temporal trends in the phenology of many organisms including various species of fish. Accordingly, we examined variation in adult Atlantic salmon Salmo salar run timing in thirteen Newfoundland and Labrador rivers where returns were monitored at fishways or fish‐counting fences. Run timing varied significantly among rivers with the median date of return differing by up to 5 weeks. Duration of runs was generally short with most adults returning over a period of three to 5 weeks. A mixed model analysis incorporating a first‐order autoregressive error structure was used to generalise changes in run timing among all monitored rivers. Results indicated that the median date of return has advanced by almost 12 days over a 35‐year interval from 1978 to 2012, while several individual rivers have advanced by almost 21 days. The influence of climate on median timing was evident when the simultaneous effects of both climate and salmon abundance were controlled. We found earlier runs associated with overall warmer climate conditions on the Newfoundland and Labrador Shelf. Results contrast with those from the north‐east Atlantic where Atlantic salmon are returning later in some rivers coincident with warming climate conditions.     

Appetite,metabolism and growth regulation in Atlantic salmon (Salmo salar L.) exposed to hypoxia at elevated seawater temperature

High temperature combined with low dissolved oxygen (DO) is one of the most challenging environmental conditions farmed fish experience; thus, understanding their impact on growth regulation is of relevance to cultured and wild populations. This study examines appetite‐ and growth‐regulating mechanisms in Atlantic salmon postsmolt exposed to either high (HO) or low oxygen (LO) at a suboptimally high temperature (17°C). Additionally, the effects of high (HE) and low (LE) dietary energy (DE) were examined. After a month of treatment, analyses of hormones, regulating appetite (ghrelin) and growth (growth hormone receptor ghr1 and insulin‐like growth factor IGF‐1), and free amino acids (FAA) were measured pre‐ and postprandially at ?4, ?2, 0, 2, 4 and 6 h. No preprandial ghrelin peaks were detected despite a significant reduction in feed intake and growth under hypoxia compared to normoxia. LO treatment also had an overall negative effect on survival compared to HO, while nutrient retention efficiency, FCR and plasma FAA concentrations were unaffected (P > 0.05). Feeding HE diet resulted in increased growth (+17%) and improved FCR (?14%) and energy retention efficiency (+26%) independent of DO. Plasma FAA concentrations were unaffected by LO treatment and DE (P > 0.05). Growth regulatory gene expressions possibly reflect an overall lower growth at a high temperature overriding the impacts of DO and DE. This study also indicates that optimal adaptation time to environmental conditions and feeding regime is crucial for establishing a regular hormonal appetite signalling that reflects real feeding anticipation in salmon.     

温度对波纹龙虾消化酶活力的影响

研究了波纹龙虾温度对不同消化器官中消化酶活力的影响,为人工饲料科学配制依据。用酶学分析方法,设计6个温度梯度(20℃、25℃、30℃、35℃、40℃和45℃),分别测定波纹龙虾胃、肠和肝胰脏的类胃蛋白酶、胰蛋白酶、淀粉酶和脂肪酶的活力。结果显示:在反应温度20℃~45℃范围内,波纹龙虾胃、肠、肝胰脏内的消化酶均随着温度的升高表现为先升后降趋势;不同消化器官中胃蛋白酶活力值出现拐点的温度不一样,胃、肠和肝胰脏的胃蛋白酶活力最大的温度分别是30℃、35℃和40℃;不同消化器官胃蛋白酶的活力有显著差异(P0.05),大小依次为胃肠肝胰脏;波纹龙虾不同消化器官的类胰蛋白酶出现最大酶活力的温度相同,为40℃,但胃的类胰蛋白酶活力明显较肠和肝胰脏的低(P0.05),差值最大可达40 U/mg;波纹龙虾胃、肠和肝胰脏的淀粉酶活力在25℃均出现最大值;在消化器官中,肠道淀粉酶活力最大,与胃和肝胰脏的酶活力有显著性差异(P0.05);波纹龙虾胃、肠和肝胰脏内的脂肪酶活力最大的温度为30℃,活力最高的是肝胰脏,胃内的脂肪酶活力明显的比肠和肝胰脏的要低(P0.05)。     

胡椒园间作槟榔体系小气候对胡椒产量的影响

为确定胡椒园间作槟榔体系影响胡椒产量的关键小气候因子,在海南胡椒园间作槟榔优势区开展4种间作模式与单作胡椒园小气候因子对产量影响的为期4 a的试验,研究不同间作密度下,对胡椒产量有主要贡献的灌浆期的叶片光合作用参数、每日最高和最低气温、不同深度土层土壤温度和含水量,分析胡椒园间作槟榔体系小气候因子对胡椒产量的影响。结果表明:合理间作可以提高胡椒产量,其中间作槟榔株数为765株/hm2的T2处理可以显著提高胡椒产量38.71%,为增产效应最大的处理。分析T2处理增产的原因,发现光强影响的关键光合参数气孔导度对产量有极显著正效应,光合有效辐射、光合速率对产量有显著正效应,T2处理显著提高了这三个光合参数;高温干旱的灌浆期胡椒园日最高温和升温幅度与产量负相关,T2处理显著降低了这两个参数,使胡椒产量增加;表层土壤温度与产量呈负相关关系,T2处理显著降低了表层土壤温度,对胡椒根系有保护作用。综合分析,发现光合有效辐射、日最高温、升温幅度和表层土壤温度是影响胡椒产量的关键小气候因子,所以,这几种小气候因子是用来确定间作模式是否合理的关键参数。