柞蚕肠液理化性质与饲料效率的相关性研究

对柞蚕肠液的理化性质与饲料效率的相关性进行研究的结果表明 :柞蚕肠液对促进蚕体抗病与消化吸收功能有着重要作用 ,平均每头蚕有肠液 1 76mL ,品种间开差为 0 78mL ,相对开差 5 7 80 % ,肠液量越多 ,饲料效率越高 ;柞蚕不同品种肠液pH平均值未发现明显差异 ,但强健好养饲料效率高的品种个体间开差小 ;柞蚕肠液缓冲力除与品种强健性有关外 ,还与品种的饲料效率呈正相关 ,在强健丰产与高饲料效率品种中 ,肠液恢复pH原值所需时间越短 ,饲料效率越高 ,电刺法取出肠液后 ,肠液恢复缓冲力所需时间是恢复其pH原值时间的 1 8倍多 ,同恢复肠液pH原值所需时间长短与品种强健性和饲料效率的关系完全一致。     

草莓果实的流变特牲及其在贮藏过程中的变化规律

利用自制的应力－应变试验台，对草莓果实的应力－应变特性和蠕变特性进行了测定与研究，建立了草莓果实应力－应变的数学模型，指出了草莓果实的极限屈服点变动范围。同时对草莓在不同贮藏条件下流变特性的变化规律进行了初步的研究，发现草莓的成熟度、贮藏温度及贮藏时间对果实的硬度、屈服应力均有较显著的影响，建立了屈服应力随时间变化的不同阶段的回归方程，可用于预测在相应贮藏条件下的草莓果实的屈服应力。     

赖氨酸修饰对梯棱羊肚菌黑色素结构和理化特性的影响

为了进一步提高梯棱羊肚菌黑色素的提取率及溶解性,本试验采用单因素、Plackett-Burman试验、响应面试验对纤维素酶-超声波协同提取梯棱羊肚菌黑色素的提取工艺进行优化研究。通过赖氨酸修饰,并对修饰前后的梯棱羊肚菌黑色素进行结构表征、理化性质及稳定性研究。结果表明,在NaOH浓度为1.54 mol/L,纤维素酶添加量为20 mg/g,纤维素酶酶解时间为78.6 min,料液比为1:30,酶解温度为40 ℃,超声时间为80 min条件下提取的梯棱羊肚菌黑色素最优。未修饰的梯棱羊肚菌黑色素不溶于水,色价值为480.24,修饰后的黑色素溶解度为1 016 g/L,色价值为1 771.18,比未修饰的黑色素在溶解性、色价值方面均有所提高。此外,在不同的温度、光照、pH条件下,修饰前后的梯棱羊肚菌黑色素均比较稳定。以上研究结果为梯棱羊肚菌黑色素的高效提取及其产品的开发利用奠定了理论基础。     

多花黑麦草品种比较试验

通过对现行生产中常用的4个多花黑麦草品种在昆明地区的物候期、株高、草产量、生长率、净同化率等指标的规定表明,在生长初期,特高的生产性能比其余3个品种都好,但生长一段时间后,邦德的生产性能明显超过特高(P<0.05),抗锈王略高于特高(P>0.05),旺饲的生产性能最差(P<0.05)。因此,邦德是一个在生产中值得推广应用的品种。     

铅胁迫对金丝草生长及生理生化的影响

采用土培方法,探究不同梯度铅胁迫(0、1000、2000和3000 mg·kg^-1)对金丝草生长形态、体内抗氧化系统和渗透调节物质的影响。结果表明:低浓度(1000 mg·kg^-1)处理会诱导金丝草叶片过氧化物酶(POD)活性、可溶性蛋白(SP)含量和根系抗超氧阴离子自由基活力(ASAFR)、可溶性糖(SS)及脯氨酸(Pro)含量增加,使得金丝草植株总抗氧化能力(T-AOC)处于较高水平,促进了金丝草株高、叶长和生物量的增加。随胁迫浓度增加,高浓度(2000~3000 mg·kg^-1)处理下,金丝草叶片和根系丙二醛(MDA)含量迅速增加,株高、叶长、叶面积和生物量下降,生长受到抑制。但金丝草通过增强叶片和根系POD、过氧化氢酶(CAT)活性来抵御过氧化作用,提高可溶性蛋白和可溶性糖含量维持细胞正常运作,增加根系生物量占比来加强根系发育,一定程度适应了高浓度铅胁迫。综上表明,金丝草主要通过叶片和根系不同抗氧化酶差异化响应、提高渗透调节物质含量,提升金丝草植株总抗氧化能力等途径来提高Pb耐性,对Pb污染矿区植物修复有较大潜力。     

番茄/茄子嫁接对其根际土壤生物学性状及细菌群落结构的影响

以茄子作为砧木,番茄为接穗进行嫁接,并以番茄自根植株和茄子自根植株作为对照,基于传统及现代高通量测序技术分析根际土壤的生物学性状及细菌群落结构特征,旨在揭示嫁接植株抗性增强的机制。结果表明:番茄/茄子嫁接植株根际土壤中可培养细菌、放线菌数量,微生物生物量、酶活性和细菌丰富度、多样性指数均显著高于茄子和番茄自根植株;另一方面,norank_cAcidobacteria、硝化螺菌属(Nitrospira)、芽孢杆菌属(Bacillus)、norank_fGemmatimonadaceae、norank_oGaiellales、norank_fXanthobacteraceae、norank_oSC-I-84、norank_fAnaerolineaceae、norank_fNitrosomonadace...     

气化渣复配调理剂对风沙土土壤性质及高羊茅生长的影响

使用高羊茅作为指示作物,采用田间小区及随机区组的试验方法,研究施用不同含量的气化渣复配土壤调理剂ET1（1 000 kg/667 m²）、ET2（2 000 kg/667 m²）、ET3（ 4 000 kg/667 m²）、ET4（8 000 kg/667 m²）对风沙土土壤性质的影响。结果表明：（1）施用气化渣复配土壤调理剂可有效改良风沙土的物理性状。与CK相比,土壤含水量平均增幅18.12%;土壤容重平均降幅3.23%;地温平均增幅2.68%;（2）施用气化渣复配土壤调理剂可有效改良风沙土的化学性状。（3）施用气化渣复配土壤调理剂可有效改良高羊茅的农艺性状。土壤地温的增加可以使作物安全越冬、提高种子存活率。因此,气化渣复配土壤调理剂能有效改善风沙土土壤的理化性状,显著改善高羊茅的农艺性状,并且使用8 000 kg/667 m²的气化渣复配土壤调理剂为最佳选择。     

Screening for New Cosmeceuticals from Brown Algae Fucus vesiculosus with Antioxidant and Photo-Protecting Properties

Phlorotannins play a role in biological functions to protect the cells against UV and oxidative damage in brown algae. We hypothesized that these compounds can function as photo-protectors and antioxidants in skin care formulations. Two types of extracts (water (FV-WE) and 67% v/v ethanol (FV-EE)) from Fucus vesiculosus were obtained with a phlorotannin content between 7−14% in dry extract. Exposure to sun light during growth was included as a factor on the phlorotannin content but did not influence the phlorotannin content. However, green colored F. vesiculosus had lower total phenolic content (TPC) (FV-WE = 6.9 g GAE 100 g⁻¹ dw, FV-EE = 7.8 g GAE 100 g⁻¹ dw) compared to those with a yellow/brownish color (FV-WE = 10.4–13.7 g GAE 100 g⁻¹ dw, FV-EE = 11.2–14.0 g GAE 100 g⁻¹ dw). UVA and UVB photo protective capabilities of the extracts through different biological effective protection factors (BEPFs) were evaluated using in vitro methods; the Mansur method for sun protection factor (SPF) and calculation of effective solar absorption radiation (%ESAR) to determine SPF and UVA protection factor (UVA-PF) of the extract and in seaweed enriched lotion. The SPF was negligible, when evaluating FV-WE in lotion (10 and 20% w/w). Moreover, %ESAR of the FV-WE showed SPF and some UVA-PF, but not enough to give sufficient SPF in lotions (10% w/w). It was concluded that the concentration of UV protecting compounds in the extracts was too low to and that further fractionation and purification of phlorotannins is needed to increase the SPF.     

Physicochemical,Structural and Antioxidant Properties of Collagens from the Swim Bladder of Four Fish Species

This study aimed to isolate and characterize pepsin-solubilized collagen (PSC) from marine and freshwater fish swim bladders. The physicochemical properties, protein pattern, amino acid composition, structure, thermal denaturation temperature, and antioxidant activity of PSC from four different swim bladder sources were investigated and compared. The results demonstrated that the four types of collagen extracted were all type I collagen. The yield of PSC extracted from grass carp (GCSB-PSC), bighead carp (BCSB-PSC), grouper (GSB-PSC), and monkfish swim bladders (MSB-PSC) were 38.98, 27.97, 18.16, and 10.35%, respectively. Compared to the other three PSCs, BCSB-PSC has the highest thermal denaturation temperature (38.60 °C). Based on FTIR spectroscopy and circular dichroism (CD) analysis, the extracted PSCs retained the triple helix and secondary structure well. Antioxidant studies showed that in the swim bladders of four species the swim bladder PSC could scavenge DPPH and ABTS radicals. Overall, swim bladders from marine and freshwater fish can be utilized as raw materials for collagen extraction, and the extracted collagen has potential commercial applications.