Effects of Addition of Bee Pollen on Water Holding Capacity of Pork

[ Objective] To explore the effects of different proportion of bee pollen on the water holding capacity of pork in Duroc Landrace x Yorkshire growing-finishing pigs in order to determine the optimal proportion. [ Method] A total of 80 Duroc x Landrace x Yorkshire growing-finishing pigs, weighing （10.0 ± 1.0） kg, were randomly divided into five groups. The experimental period was 120 d including the 5-day pre-feecling period. The corn-soybean meal was not replaced during the whole period. All pigs had free access to feed and water. The pigs were fasting for 24 h but not prohibited from feed before the beginning. Group I was the control group reared with the diet not supplemented bee pollen. The pigs in group II, III ,IV and V were reared with the diet supplemented bee pollen at the concentration of 1%, 3%, 5% and 7%, respectively. After slaughtering, eye muscle was used for determination of water holding capacity through fast filter paper method, drip loss method, cooking loss method and Na- pole yield determination method. [ Resultl With the increase of the proportion of bee pollen, the water holding capacity of pork was first good and then poor. The addition of bee pollen at the concentration of 5% significantly reduced the drip loss of pork and the water holding capacity which was detected by fast filter paper method, but the cooking loss and Napole yield were not significantly influenced. [ Condmion] The bee pollen can effectively improve the water holding capacity of pork in Duroc x Landrace x Yorkshire growing-finishing pigs, and the optimal proportion is 5%.

Effects of Meat and Phosphate Level on Water-Holding Capacity and Texture of Emulsion-Type Sausage During Storage

This paper was designed to verify the influence of phosphate on water-holding capacity （WHC） and texture of emulsiontype sausage prepared with pre-rigor meat, ageing meat or frozen meat. Pre-rigor pork, ageing pork and frozen pork were pre-blended with five levels of phosphate and made into emulsion-type sausage. The yield, hardness and total expressible fluid （TEF） were measured with texture profile analysis machine and pressiometer when emulsion-type sausage was produced. Meanwhile, hardness and purge loss （PL） were measured during 30 d storage. As emusion-type sausage made by pre-rigor meat, higher yield and relatively stable hardness could be found. It indicated that increasing of phosphate level caused an alleviatable effects in increasing of hardness when emulsion-type sausage made by pre-rigor meat, but opposite effects made by ageing meat or frozen meat. The distribution of PL of emulsion-type sausage was found to be affected by phosphate addition. Significant decrease of PL could not be obtained by increasing of phosphate level during storage. Pre-rigor meat improved WHC and texture of emulsion-type sausage. Problem of WHC and texture of emulsiontype sausage during storage could not be resolved by single use of phosphate at relatively higher level （3%） of NaCl.

The Effect of the Soil Water Holding Capacity and Permeability under Different Patterns of Land Use in the Eastern Qilian Mountains

This study investigated the effect of the soil water holding capacity and permeability under different land use patterns in the Tianzhu alpine region of the Eastern Qilian Mountains,and four land use patterns were selected,namely,natural grassland,rehabilitated land,oats land and perennial grassland. As time went by,different land use patterns imposed significant effects on the water holding capacity power and permeability. The soil bulk density was rehabilitated land(1. 104 g/cm3) > perennial grassland(1.061g/cm3) > oats land(1.011 g/cm3) > natural grassland(0. 781 g/cm3) ; the soil overall porosity was natural grassland(68.196%) > oats land(60.606%) > perennial grassland(58. 93%) > rehabilitated land(57. 5%) ; the natural grassland had the most water holding capacity power and soil steady infiltration rate(681. 966 t/hm 2 and 3. 02 mm/min) ,while the rehabilitated land had the least(575. 005 t/hm 2 and 1. 004 mm/min) . In terms of soil water-holding capacity and permeability,the natural grassland was the best out of these four use patterns while the rehabilitated land was the worst pattern. In other words,both oats land and perennial grassland had better water holding capacity power and permeability than the rehabilitated land.

Study on Quantitative Model of Karst Drainage Basin Water-Holding Based on Principal Component Analysis: A Case Study of Guizhou, China

In Karst drainage basins, there are the ground water and underground water exchanging frequently, and the shortage of water resources due to having the special double aquifer mediums and unique surface and subsurface river systematic structure. This paper is to select 20 research sampling areas coming fromGuizhouProvince, and according to the spectral characteristics of the catchment water-holding mediums and vegetations, and using the remote sensing technique, extract the watershed vegetation index. According to the principle of principal component analysis, using the software of Spss and Matlab is to analyze the impacts of watershed vegetation type on the catchment water-holding ability, and establish the principal component analysis function. Studies have shown that: 1) the watershed vegetation coverage rate plays an important role in Karst basin water-holding ability;2) the catchment water-holding ability is the comprehensive reflection and manifestation of the Catchment Water-storing Capacity (CWC);3) it is much better effects and higher accuracy to monitor/forecast the catchment water-holding volume by using the vegetation indices.

Moisture,Water Holding,Drying and Wetting in Forest Soils

Relationship of soil and water is generally considered as important in soil science. To specify it further we studied two different soils in 2012-2013, three additional soils once and made several series of experiments with drying and wetting of the soils. Principal parameters studied were the gravimetric water content (GWC), water holding capacity (WHC), soil organic matter (SOM), their correlations and rates of change in drying or wetting. The three parameters are significantly inter-correlated. Distribution of GWC in the replicates of soils dried both in nature and in experiments was narrower than that in wet soils, while WHC changed less in drying. The correlations (GWC- WHC) became steeper (the slope coefficient higher) and the coefficient of determination (R2) lower. Attempts to increase WHC in wet soils with a high WHC even further were not successful. Drying may be fast or slow;rates of increase of WHC in wetting were all low, both in field and in the experiments, less than 0.1 g (H2O) g-1 (soil)·day-1. None of the three parameters can be considered as fixed characteristics of forest soils.

秦川牛宰后成熟过程中线粒体Tu翻译延长因子对牛肉持水性的影响

探究秦川牛宰后成熟过程中线粒体Tu翻译延长因子(mitochondrial Tu translation elongation factor,TUFM)表达对肉的持水性影响。以秦川牛背最长肌为研究对象,测定4℃不同成熟时间下的pH值、贮藏损失、离心损失、蒸煮损失、水分分布、肌原纤维蛋白等指标变化情况,测定不同成熟时间(0、96、192 h)下TUFM表达量及其含量、Beclin1蛋白表达量。结果显示:在秦川牛宰后成熟期间,肌原纤维蛋白发生降解,TUFM的表达量与Beclin1蛋白表达量和牛肉的持水性存在密切关系,其中蛋白质组学测定的TUFM表达量变化与TUFM含量变化趋势一致,Beclin1蛋白表达量、贮藏损失、离心损失、蒸煮损失整体均呈先上升后下降趋势,pH值呈先下降后上升趋势;Pearson相关性分析表明,牛背最长肌中TUFM表达量与低场核磁共振峰面积比P_(2b)、Beclin1蛋白表达量呈极显著正相关(P<0.01),与贮藏损失、离心损失、蒸煮损失呈显著正相关(P<0.05),与P_(21)呈极显著负相关(P<0.01),与P_(22)呈显著负相关(P<0.05),与pH值无显著相关性(P>0.05)。通过蛋白质组学鉴定出23种与TUFM相关的差异蛋白,通过基因本体论、京都基因与基因组百科全书通路分析发现,差异蛋白可通过多种途径参与能量代谢,进而介导细胞自噬;对差异蛋白和持水性指标进行Pearson相关性分析发现,有5种差异蛋白(ATP5F1D、EEF1A2、GSPT1、NDUFB5、SUCLG1)与持水性指标具有显著相关性(P<0.05、P<0.01)。分析可知,包括TUFM在内,共6种蛋白主要通过能量代谢和氧转运等途径正向或负向影响细胞自噬,从而影响肉的持水性。

Effect of Different Land Use Patterns on Physical Properties of Soil Water in Yellow River Wetland in Shaanxi Province

[Objective] This study was to reveal the effect of different land use patterns on physical characteristics of soil water in the Yellow River wetland in Shaanxi Province.[Method]Taking Yellow River wetland in Shaanxi Province as experimental plot,we compared the physical properties of the soil water under different land use patterns and studied the physical properties and the change law of soil water during the wetland degeneration process.[Result]Under different land use patterns,soil bulk density rose with the increase of soil depth.During the degeneration process of from river wetland to reclaimed wetland（paddy field）,finally to abandoned land owing to salinization,the mean soil bulk density reduced correspondingly from 1.474 to 1.522 g/cm3,finally to 1.593 g/cm3 when abandoned.Accompanying wetland degeneration,soil became compact increasingly,and the indicators of soil porosity（total porosity,capillary porosity,non-capillary porosity）were also reduced with the change of land use patterns,in which,capillary porosity and total porosity reached the extremely significant level with the change of land use patterns,and non-capillary porosity reached significant level.The changes of soil porosity condition accelerated the deterioration of wetland.Under different land use patterns,the maximum soil moisture capacity,capillary moisture capacity and minimum moisture capacity all showed a similar change law.Compared with wetland,the maximum soil moisture capacity of reclaimed land（paddy field）and salinized land respectively decreased by 5.7% and 22.3%,capillary moisture capacity by 0.2% and 19.4%,minimum moisture capacity by 2.7% and 15.9%.Of the three land use patterns,wetland displayed both higher water holding capacity and water drainage capacity over reclaimed land（paddy field）and salinized land.By comparison with wetland,the reclaimed land（paddy field）and salinized land respectively decreased by 12.4% and 15.2% in total water holding capacity,and by 2.7% and 15.9% in total water drainage capacity.[Conclusion]To conserve the water resource in Yellow River wetland,regulate the hydrological cycle and enhance drought and water logging resistances,it should be noted that reasonable countermeasures be taken to exploit the state-owned forest land and paddy field around the wetland and the related resources.

不同烫漂方式及冷冻速率对预制西兰花质构品质的影响

为探究预制西兰花加工过程中烫漂方式及冷冻速率对西兰花质构品质的影响,对经2种烫漂方式(热水烫漂、蒸汽烫漂)及3种冷冻温度(-20、-40、-80℃)处理的西兰花样品,利用低场核磁共振、理化特性分析方法测定不同处理组样品的水分分布、持水性、相对电导率和硬度,观察微观结构。结果表明:维持西兰花硬度的最佳工艺为蒸汽烫漂后进行-40℃冷冻,在此工艺条件下,与对照组相比,处理组西兰花水分分布中结合水峰面积占比(A21)增加最多、持水性最强,花序部分保留66.72%硬度、茎部分保留62.53%硬度,相对电导率增加至87.01%;通过扫描电子显微镜观察发现,经过该处理的西兰花保持了较好的细胞结构。本研究得到了有效维持解冻西兰花质构的工艺,并揭示了不同处理对西兰花水分分布及细胞膜完整性影响的机制,为实际生产过程保持冷冻预制西兰花品质提供了理论与技术支撑。

Effects of biochar on water movement characteristics in sandy soil under drip irrigation

Biochar addition can improve the physical and hydraulic characteristics of sandy soil.This study investigated the effects of biochar on water holding capacity and water movement in sandy soil under drip irrigation.By indoor simulation experiments,the effects of biochar application at five levels(0%,1%,2%,4%and 6%)on the soil water retention curve,infiltration characteristics of drip irrigation and water distribution were tested and analyzed.The results showed that biochar addition rate was positively correlated with water holding capacity of sandy soil and soil available water.Within the same infiltration time,with an increasing amount of added biochar,the diffusion distance of the horizontal wetting front(HWF)tended to decrease,while the infiltration distance of vertical wetting front(VWF)initially declined and then rose.The features of wetted bodies changed from"broad-shallow"to"narrow-deep"type.The relationship between the transport distances of HWF and VWF and the infiltration time was described by a power function.At the same distance from the point source,the larger the amount of added biochar,the higher the soil water content.Biochar had a great influence on the water content of the layer with biochar(0–200 mm)and had some effects at 200–250 mm without biochar;but it had less influence on the soil water content deeper than 250 mm.For the application rate of biochar of 4%,most water was retained within 0–250 mm soil layer.However,when biochar application amount was high(6%),it would be helpful for water infiltration.During the improvement of sandy soil,biochar application rate of 4%in the plow layer had the best effect.

青海湖高寒草原植被群落结构和水源涵养功能对禁牧封育的响应

【目的】探讨禁牧封育对青海湖植被群落结构和水源涵养功能的影响,对准确评估禁牧封育在青海湖退化草地恢复过程中的作用具有重要意义。【方法】对青海湖北岸高寒草原设置自由放牧及不同封育年限样地,分析封育措施对植物物种数、生物量、功能群、土壤容重、持水量及孔隙度等指标的影响。【结果】(1)随封育年限延长,青海湖北岸高寒草原物种数呈降低趋势,植被盖度、地上地下生物量均呈先增加后降低趋势,禾本科植物在群落中的重要值占比逐渐增加。(2)禁牧封育对青海湖北岸高寒草原土壤水分特征的影响主要集中在0—20 cm。随禁牧封育年限延长,0—20 cm土壤容重逐步降低,0—10 cm土壤饱和持水量、毛管持水量、田间持水量及总孔隙度均呈先增加后稳定趋势。(3)土壤容重是影响青海湖北岸高寒草原植被群落结构的最主要土壤水分特征因子。【结论】从植被群落结构的角度考虑,青海湖高寒草原禁牧封育年限不应超过7年,超过7年应进行适度干扰。

快速和慢速热解对棉秆生物炭理化特性及土壤持水量的影响

以新疆棉秆为原料,在300~700℃下利用快速和慢速热解方式制备了生物炭,研究了快速和慢速热解对棉秆生物炭形貌、表面官能团、pH值、元素组成的影响.利用室内土柱试验,研究了不同条件下制备的生物炭对土壤持水量的影响.结果表明:1)随着热解温度的升高,生物炭产率下降,pH值提高,孔隙度增加.快速热解生物炭具有孔隙发达、芳香性高、稳定性强的优点.2)土壤持水量随着生物炭添加量和热解温度的升高而提高.生物炭添加量为0.03 g/g时,土壤持水量分别为51.7%和49.7%,比未添加生物炭提高了32.5%和27.4%.3)添加生物炭土壤15 d后保水量仍有40.3%,远高于纯土壤,且添加快速热解生物炭的土壤保水量高于慢速热解生物炭.

乳清蛋白粉与豆乳不同质量比对凝固型沙棘酸奶品质的影响

以1 L鲜牛乳质量为基准,向其中加入乳清蛋白粉(WPP)、豆乳、沙棘果汁及菌种,混合发酵制备凝固型沙棘酸奶,探究WPP与豆乳不同质量比(WPP与豆乳总质量100 g,A组4∶0,B组3∶1,C组2∶2,D组1∶3,E组0∶4,F组不添加WPP和豆乳,G组不加沙棘果汁、WPP和豆乳)对凝固型沙棘酸奶理化特性、微观结构、质构特性及感官品质的影响。结果表明:B、C、D、E组酸奶发酵时间约为5 h,A、F、G组酸奶发酵时间约为6 h;各组酸奶脂肪含量差异不大,E组酸奶蛋白质含量最高,为4.55%;A组酸奶的持水力最高,为98.02%±0.05%;C组酸奶(硬度0.45 N±0.03 N,胶着性0.47 N±0.02 N,咀嚼性6.32±0.41,黏附性0.57 N·s±0.07 N·s)的质地和微观结构最佳,且C组在贮存3 d时的感官评分最高,为88.8。

地被物调控对川西亚高山次生林枯落物持水性能的影响

为弄清地被物调控对次生林地水源涵养能力的影响,对阿坝州米亚罗林区3个退化程度(轻度、中度、重度)的岷江冷杉次生林分别进行了7个地被物调控处理,其中移出3个梯度(10%-C1、30%-C2、50%-C3)、输入3个梯度(10%-R1、30%-R2、50%-R3)、对照-CK,监测其枯落物持水性能的变化,结果显示:次生林的枯落物蓄积量受林分密度和林分结构以及分解速率影响,表现为中度退化>重度退化>轻度退化,枯落物最大持水量与蓄积量呈正相关,也表现为中度退化>重度退化>轻度退化,且中度退化次生林枯落物最大持水量比重度退化次生林高出50.45%,比轻度退化次生林高出57.42%。地被物调控后不同次生林蓄积量、最大持水量和有效拦蓄量均是R2处理(移入30%)最高,其中轻度退化次生林R2的最大持水量比CK(对照)高出35.48%;中度退化次生林R2的最大持水量比CK高出312.24%;重度退化次生林R2的最大持水量比CK高出47.93%。不同次生林最大持水率与最大持水量、蓄积量没有相关性,其中中度退化次生林R3的最大持水率(移入30%)最高,比CK高71.66%。从监测数据来看,R2处理能较快地对提升枯落物持水性能作出响应,且在中度退化次生林的效果最好。

枸杞粉对白鲢鱼糜凝胶品质的影响

该研究以冷冻白鲢鱼糜为实验原料,向其中添加枸杞粉(wolfberry powder,WP),分析不同添加量[0.25%、0.5%、0.75%、1%、1.5%(质量分数)]的WP对白鲢鱼糜凝胶持水性、蒸煮损失率、白度值、水分分布、凝胶特性、微观结构、感官评价及气味特征的影响。结果表明,随着WP含量的增加,鱼糜凝胶的持水性、硬度、咀嚼性和凝胶强度都表现出先增大后减小的趋势,当WP的添加量为0.5%时达到最大,分别为78.55%、(2716.77±75.76)g、(2185.15±32.46)g和1087 g·cm;而蒸煮损失率则表现出先减小后增大的趋势,在0.5%的添加量时,蒸煮损失率最小,为7.49%。在鱼糜中加入WP后,可以减少鱼糜凝胶中自由水的比例,增加不易流动水的比例,使鱼糜凝胶保留更多水分,且当WP在最适添加量0.5%时,鱼糜凝胶中只检测到结合水和不易流动水,未检测到自由水。适量WP的添加会增强鱼糜凝胶的网络结构,使其变得更加致密均匀。WP的添加会减小鱼糜凝胶的白度值和色泽评分,但在最适添加量0.5%时,其颜色总体可接受。此外,感官评价和电子鼻分析结果表明,当WP在最适添加量0.5%时,可以显著改善鱼糜凝胶的风味品质。研究结果可为生产高品质的鱼糜产品提供理论依据。

干旱半干旱区典型林分持水性能比较研究

[目的]水分供给是制约干旱及半干旱区发展的决定因素,科学评估干旱半干旱区典型林分的持水性能是规划防护林建设,调控林分结构与进行树种选择的重要依据。[方法]以库布齐沙漠鄂尔多斯造林总场内5种典型人工林为研究对象,利用野外收获法与室内浸水法分析林冠层、林下植被层、枯落物层及土壤层持水性能,引入模糊物元模型,结合欧式贴近度对不同林分持水性能进行定量评价。[结果](1)不同树种间林冠持水能力差异显著,表现为杨树旱柳混交林>榆树林>杨树林>沙柳林>樟子松林,林分持水量介于2.36~9.98 t/hm^(2)。(2)各林分林下植被的持水量介于0.84~3.66 t/hm^(2),生物量介于1.33~3.92 t/hm^(2),生物量表现出与持水量相同的变化趋势。(3)枯落物持水量介于1.96~29.25 t/hm^(2),生物量介于1.43~13.62 t/hm^(2),对数函数和幂函数可较好表现枯落物的动态持水量和动态吸水率。(4)各林分间土壤毛管持水量介于543.80~645.71 t/hm^(2),饱和持水量介于562.87~694.78 t/hm^(2),杨柳混交林土壤容重低于其他纯林,同时孔隙度比其他林分高。(5)欧式贴近度大小排序为杨柳混交林(0.805 6)>沙柳林(0.387 7)>榆树林(0.374 7)>杨树林(0.357 2)>樟子松林(0.163 2),欧式贴近度越大,林分持水性能越强,5种林型中杨柳混交林持水能力最强,樟子松林最差。[结论]建议未来经营干旱半干旱区人工防护林建设中,适当提高混交林比例,并尝试通过更多林分合理搭配进行防护林建设保护。

冷链流通中温度波动对冷冻南美白对虾持水性及质构特性的影响

以南美白对虾为研究对象,设置-18~-12、-18~-6、-18~0℃温度波动参数,研究0、1、3、5、7次波动后南美白对虾的持水性及质构特性变化,通过肌原纤维蛋白结构特性和微观结构的变化对其进行内因分析。结果表明,随着温度波动次数的增加,3组温度波动组南美白对虾的水分含量、硬度、内聚性、咀嚼性和剪切力逐渐减少,解冻损失、离心损失逐渐增加,持水性及质构特性发生显著劣变,且随着波动范围的增加,劣变程度加剧。巯基含量、最大内源荧光强度不断下降,且SDS-PAGE图显示肌原纤维蛋白部分发生氧化变性;通过微观结构更直观地发现,温度波动各组的冰晶和肌肉组织中的孔洞逐渐增大且不规则化。此外,通过偏最小二乘法进一步阐明蛋白变性和冰晶的重结晶是引起持水性及质构特性下降的主要原因。因此,温度波动次数增加会加剧南美白对虾持水性和质构特性的下降,应尽量避免冷链流通过程中多次大幅度甚至极端温度波动情况的发生。

施肥对热带砖红壤胶林土壤水分特征曲线的影响及模型优选

[目的]探明热带橡胶林施肥措施对土壤持水能力及孔隙特征的影响,并优选描述砖红壤胶林土壤水分特征曲线的模拟模型。[方法]采用沙箱排水法结合压力膜仪法测定砖红壤橡胶林5种施肥处理(有机肥混施化肥(H)、施化肥(C)、种植绿肥(G)、施专用肥(S)及不施肥(CK))的全吸力段土壤水分特征曲线,应用Brooks-Corey(BC)、van Genuchten(VG)、Gardner和Log-Normal Distribution(LND)4种经验模型拟合,分析了不同模型的适用性及拟合精度。[结果]0—5 cm土层,在低吸力段(pF≤3.01)C处理降幅最大(0.44 cm^(3)/cm^(3));在高吸力阶段(3.01<pF≤4.18)的降幅整体偏小,H处理的降幅最大(0.05 cm^(3)/cm^(3))。5—10 cm土层,在低吸力段C处理的下降幅度最大(0.52 cm^(3)/cm^(3)),高吸力段C处理的降幅最大(0.03 cm^(3)/cm^(3))。在0—5 cm土层中,CK处理的土壤有效含水率最大(0.19 cm^(3)/cm^(3))。在5—10 cm土层中,C处理的土壤有效含水率最大(0.11 cm^(3)/cm^(3))。0—5 cm土层,CK处理的土壤空隙占比(5.2%)和大孔隙占比(0.8%)最小,中等孔隙占比(48.7%)最高。5—10 cm土层中,C处理的土壤空隙和大孔隙的占比均最小。BC,VG,Gardner和LND 4种模型均可用来拟合砖红壤胶林不同施肥处理的土壤水分特征曲线(R 2≥0.84),不同模型的拟合精度由大到小依次为:BC,VG,LND和Gardner模型。[结论]0—5 cm土层不同施肥处理中CK处理是最优施肥管理方式,5—10 cm土层所有施肥处理中C处理是最优施肥管理方式。同时,BC模型是拟合研究区内不同施肥处理土壤水分特征曲线是最优模型。

滩羊肉成熟过程中糖酵解与保水性之间的关系

为阐明滩羊肉成熟过程中糖酵解程度与保水性的关系,以6月龄滩羊背最长肌(M.longissimus dorsi)为研究对象,分析其4℃成熟0、1、2、3、4、8 d时滴水损失率、贮藏损失率、离心损失率、钙蛋白酶-1活性、肌原纤维小片化指数、ATP含量、葡萄糖含量、糖原含量、乳酸含量、乳酸脱氢酶活性、丙酮酸激酶活性以及pH值的变化情况。结果表明,随成熟时间的延长,滩羊背最长肌的滴水损失、贮藏损失及离心损失呈先增大后减小的趋势(P<0.05),并在成熟4 d时达到最大;ATP、糖原含量持续下降(P<0.05);葡萄糖、乳酸含量呈先上升后下降趋势(P<0.05);乳酸脱氢酶活性呈先增大后减小的趋势(P<0.05),并在成熟4 d时达到最大;丙酮酸激酶活性呈持续下降趋势(P<0.05)。相关性分析结果表明,糖原含量与滴水损失呈显著负相关(P<0.05),与贮藏损失、离心损失呈极显著负相关(P<0.01),与T_(21)、T_(22)、T_(23)均呈显著正相关(P<0.05,P<0.01);乳酸含量与滴水损失呈高度显著正相关(P<0.001),与贮藏损失、离心损失呈极显著正相关(P<0.01),而与T_(21)、T_(22)、T_(23)均无相关性。综上,滩羊宰后糖酵解过程迅速被激活,引起糖酵解相关酶活性及代谢物含量发生变化,促使肌肉中蛋白质对水分吸附能力发生改变,最终影响宰后滩羊肉的保水性。

高寒矿区蛇纹石渣土配制及其改良种植基质的试验——以青海威斯特铜矿为例

针对青藏高原高寒矿区“客土”资源缺乏、土壤结构质量差和植被建造困难等问题,研究蛇纹石渣土与当地原土配制和改良,为植被建造提供种植基质。以青海威斯特铜矿为例,通过土壤模拟、盆栽种植和田间小区试验方法,对矿区蛇纹石渣土与当地原土进行种植基质配制,并通过改良试验确定种植基质的改良方案。蛇纹石渣土与原土不同比例配制极大影响基质的理化性能。蛇纹石渣土与原土配制比例6∶4时,种植基质土壤密度、pH和土壤电导率分别与纯蛇纹石渣土对照(CK)降低2.20%、7.95%和19.88%,土壤毛管孔隙度、田间持水量,以及有效磷、速效钾、全氮和水解性氮的质量分数分别显著增加15.12%、7.02%、75.23%、328.88%、117.65%和32.38%,达到绿化基质基本要求;盆栽种植表明,蛇纹石渣土与原土配制比例6∶4时,单种植披碱草和混种6种草籽等牧草的出苗数较对照CK提高10.34%和25%,披碱草株高、地上生物量、地下生物量分别较对照CK提高7.25%、87.00%和246.95%;田间小区种植试验表明,蛇纹石渣土与原土配制比例为6∶4且添加TG改良剂1 kg/m^(2)、KM 3005保水剂12 g/m^(2)和羊板粪3.12 kg/m^(2)时,羊板粪和TG改良剂梯度试验出苗株高和生物量分别较对照提高38.30%和200.43%、21.43%和358.02%,并得到工程示范应用。蛇纹石渣土与原土按照6∶4配制并通过TG改良剂、保水剂和羊板粪改良后,能达到矿区生态修复的植物种植的基质要求,试验结果对促进青海高寒矿区的生态修复具有重要参考。

黑土物理特性变化及改善途径

东北黑土区位于世界四大黑土区之一,因其高肥力和有机质含量而闻名。作为我国主要的粮食生产基地之一,在保障国家粮食安全方面具有重要地位。然而,随着东北黑土地的开垦,养分的失调导致了黑土物理特性的变化和功能的退化,从而使得黑土肥力下降,威胁着该地区的粮食安全和生态安全。黑土物理特性发生变化,主要体现在黑土层土壤容重增加,孔隙度降低,水稳性团聚体减少,田间持水量下降等。采用合理的耕作方式和施肥制度能在不同程度上改善土壤物理特性,从而遏制土壤肥力的不断下降。本文总结了自黑土开垦以来土壤容重、水稳性团聚体、田间持水量和饱和导水率的变化,分析了耕作和有机物料等对土壤物理特性的重要调节作用,讨论了不同保护途径如何通过改善土壤物理特性达到提升土壤肥力的目的,最后从制定合理的耕作体系和有机培肥机制,优化作物种植模式等展望了未来黑土重点研究的方向。