不同碳源对虎奶菇菌核蛋白质营养价值的影响

测定了四种碳源对虎奶菇菌核蛋白质营养价值的影响。结果表明，以玉米淀粉为碳源，虎奶薅菌蛋白质的化学评分，必需氨基酸指数，生物价和营养指数分别为11．63、69．80、64．40和9．98，均居四种参试碳源的第一位；氨基酸评分和氨基酸比值系数分分别为14．55和12．45，均居四种参试碳源的第二位，这些结果证实，以玉米淀粉为碳源，虎奶菇菌核蛋白质营养价值高，值得推广应用。     

羊肚菌研究进展

综述了近年来羊肚菌营养成分、有效成分，培养技术，以及细胞学、生物化学和分子生物学等方面的研究进展。     

营养液浓度及pH值对山葵生长及光合速率的影响

 探讨了0.5、1.0、1.5 倍日本园试营养液3 种浓度(以清水为对照) 和5.4、6.0、6.6、7.2 等4 种pH 值对山葵生长和光合速率的影响。结果表明, 在营养液1.0 倍和pH 6.0 条件下, 山葵平均根茎鲜质量为42.75 g , 且叶绿素含量和净光合速率显著高于其它处理。     

日光温室土壤盐分和养分的变化趋势

对种植 1～ 8a的日光温室土壤盐分和养分进行了调查研究 ,结果表明 ,随着日光温室种植年限的延长 ,土壤可溶性盐、电导率、养分含量呈增加趋势 ,酸碱度 (pH)呈降低趋势 ,有机质含量增幅不大 ;土壤速效养分中硝态氮含量过高 ,速效磷含量也很丰富。最后提出了温室土壤培肥和管理措施。     

秀珍菇营养配方的试验

本研究通过三因素三水平的正交试验表明 ,在培养基中添加VB1(2× 10 -6) ,N P K (0 1% ) ,NAA(10× 10 -6) ,最适合秀珍菇菌丝的生长     

干旱指数及其在青海东部旱区特征分析上的应用

在土壤水分平衡关系分析的基础上,提出了分析和评估旱害的5项指标:贫水指数、凋萎指数、降水指数、综合指数和干旱指数,并依据干旱指数对乐都浅山地区1961～1999年的粮食生产进行了年型分类。结果为:39a间共发生特大旱1a,大旱年3a,中旱年19a,轻旱年11a,平水年5a;发生机率分别为2.6%、7.69%、48.72%、26.21%、12.82%。同时认为青海东部地区旱区作物需水和耗水参数矛盾突出,干旱几乎年年发生,具有明显的难以预测性、多变性和不可控性。     

单宁对反刍动物营养代谢的影响

单宁是一类广泛分布于植物中的多酚类化合物，具有多种生理活性。本文主要对单宁的理化性质、单宁在植物尤其饲料作物中的分布以及单宁对反刍动物营养代谢的影响以及应用作一综述。     

荒漠草原建群种及其枯落物的C、N、P生态化学计量特征

以希拉穆仁草原建群种羊草(Leymuschinensis)、短花针茅(Stipa breviflora Griseb)、芨芨草(Achnatherum splendens nevski)及其枯落物为研究对象,通过测定其C、N、P质量分数,并计算生态化学计量比,分析建群种养分限制格局及养分再吸收规律。结果表明:①植物叶片的C、N、P质量分数均值分别为398.74、24.41、1.55 g/kg,枯落物的为362.53、14.79、1.17 g/kg,3种植物叶片的C、N、P质量分数与其枯落物的差异显著(P<0.05)。②植物在枯落之前会将养分转移,防止养分的流失,N、P的养分再吸收效率范围分别在13.51%~77.49%、2.65%~49.51%,N的回流率大于P,进而使其具备了较强的适应干旱环境的能力。③3种植物叶片的N/P、C/N、C/P变化范围分别在11.81~21.70、15.76~16.59、195.47~273.37,枯落物的变化范围分别在7.72~17.05、17.71~64.46、215.43~487.46,3种植物叶片与枯落物的N/P、C/P差异显著(P<0.05)。④植物叶片N/P均值为16.95,枯落物N/P均值为12.31,说明植物的生长主要受P的限制。研究结果可为荒漠草原提供草地管理指导。     

基于信号博弈的阳澄湖大闸蟹绿色标签市场应用分析

水产品绿色标签对消费者来说是高质量的信号,对卖家来说则是卖出高价的资本.但是欺诈行为的存在损害了消费者和其他卖家的利益,扰乱了市场秩序.以阳澄湖大闸蟹为例,通过信号博彝理论,对螃蟹市场中关卖双方的消费行为进行博彝分析,得到了精炼贝叶斯Nash均衡.     

Micro-scale heterogeneity in urban forest soils affects fine root foraging by ornamental seedlings of Buddhist pine and Northeast yew

Urban soils are frequently characterized by a strong heterogeneity caused by intense anthropogenic activity and land use changes. Soil heterogeneity is commonly known to affect tree root development, but little has been detected concerning root foraging by ornamental trees in heterogeneous urban soils at micro-scale. In this study, Buddhist pine [Podocarpus macrophyllus (Thunb.) D. Don] and Northeast yew (Taxus cuspidata S. et Z.) were selected as ornamental tree species for a two-year study. In the first-year, seedlings were cultured under contrasting photoperiods to generate different morphologies. In the second year, seedlings were transplanted to pots filled with soils collected from an urban forest. Controlled-release fertilizers (N-P₂O₅-K₂O, 14-13-13) were evenly broadcasted to a half patch of the pot (heterogeneity) or to both halves (homogeneity) on the surface 5 cm beneath the pot-top at the rate of 0.135 g N seedling⁻¹. In the fertilized heterogeneous patch, larger Buddhist pine seedlings had greater dry weight, length, surface area, volume, number of tips, and morphological foraging-precision in fine roots. Compared to Northeast yew seedlings under natural photoperiod in the first year, those under the extended photoperiod had larger size, greater fine root biomass, and length but lower foraging-precision in the second year. N and P concentrations in second-year fine roots mainly increased with the availability of patches generated by fertilization for both species. In conclusion, the ability to forage for nutrients by ornamental tree seedlings in heterogeneous urban forest soils was species-specific. Buddhist pine seedlings had higher foraging precision in heterogeneous urban soils than Northeast yew seedlings due to their response to the extended photoperiod during culture.