单宁酸对生长猪胃-小肠仿生消化中消化酶活性及饲粮粗蛋白消化率的影响

本试验旨在探讨单宁酸对生长猪胃、小肠仿生消化中消化酶活性及玉米-豆粕型饲粮干物质和粗蛋白消化率的影响，为评价单宁酸的生物学效应提供参考。试验一采用单因素完全随机设计，考察在无饲粮下2种单宁酸对猪模拟胃液、模拟小肠液消化酶活性的影响。设5个处理，单宁酸添加量分别为0 mg （胃液体积为20 mL，小肠液体积为22 mL）；单宁酸1，10 mg；单宁酸1，20 mg；单宁酸2，10 mg；单宁酸2，20 mg。测定各处理的胃蛋白酶、淀粉酶、胰蛋白酶和糜蛋白酶的活性。试验二考察玉米-豆粕型饲粮添加单宁酸对猪仿生消化中胃、小肠阶段消化酶活性及养分消化率的影响。采用单因素完全随机设计，设5个处理，单宁酸在饲粮中的含量分别为0 mg·（2 g）^-1；单宁酸1，10 mg·（2 g）^-1；单宁酸1，20 mg·（2 g）^-1；单宁酸2，10 mg·（2 g）^-1；单宁酸2，20 mg·（2 g）^-1。测定仿生消化中胃阶段0.5和4 h时胃蛋白酶活性，小肠阶段0.5、4和8 h时淀粉酶、胰蛋白酶和糜蛋白酶活性及生长猪胃-小肠仿生消化测定饲粮的干物质和粗蛋白消化率。结果表明：1）无饲粮的情况下，和空白对照组相比，2种单宁酸对模拟胃液中胃蛋白酶活性无显著影响（P>0.05），单宁酸1比单宁酸2更高地降低了模拟小肠液中淀粉酶、胰蛋白酶和糜蛋白酶的活性（P<0.05）。2）在饲粮进行仿生消化的胃消化0.5～4 h内，除4 h时10 mg·（2 g）^-1添加量外，添加单宁酸1时胃蛋白酶的活性均显著高于添加单宁酸2时的相应值（P<0.05），除单宁酸2在消化0.5 h外，2种单宁酸在添加10 mg·（2 g）^-1时胃蛋白酶活性均显著高于20 mg·（2 g）^-1添加量的相应值（P<0.05）。在小肠仿生消化0.5 h时，饲粮中添加单宁酸1、2的2个水平对消化液中淀粉酶活性无显著影响（P>0.05），但均显著降低了糜蛋白酶的活性（P<0.05）；单宁酸1的消化液中胰蛋白酶活性高于单宁酸2的相应值（P<0.05）。在小肠仿生消化4 h时，除添加水平为20 mg·（2 g）^-1时的糜蛋白酶活性外，饲粮中添加单宁酸1消化液中淀粉酶、糜蛋白酶活性高于添加单宁酸2的相应值，而胰蛋白酶活性低于添加单宁酸2的相应值（P<0.05）。单宁酸1、2的两个添加量均降低了胰蛋白酶和糜蛋白酶的活性（P<0.05）。在小肠仿生消化8 h时，饲粮中单宁酸的添加量影响了淀粉酶的活性，但单宁酸1和单宁酸2各两个添加量在淀粉酶的平均活性上无显著差异（P>0.05）。单宁酸1、2的两个添加量均降低了胰蛋白酶、糜蛋白酶的活性（P<0.05）。3）与对照组相比，两种单宁酸在两种添加水平下均显著降低了饲料粗蛋白消化率（P<0.05），且单宁酸2比单宁酸1更多地降低了饲粮粗蛋白的消化率（P<0.05）。综上所述，在有、无饲粮条件下，单宁酸对消化酶活性呈现不一致影响。单宁酸影响饲粮粗蛋白的消化率可能主要与消化液中糜蛋白酶活性降低以及单宁酸与饲粮中的化学成分形成螯合物降低了小肠消化酶的水解效率有关。     

Soil available potassium affected by rice straw incorporation and potassium fertilizer application under a rice–oilseed rape rotation system

Data from 147 field trials were collected to study the influence of straw incorporation on soil potassium (K) under an intensive rice–oilseed rape rotation system, while pot experiments were conducted to evaluate the effects of rice straw incorporation on soil K availability. A significant correlation was observed between the soil available K and the relative yield (RRY) and the relative K uptake (RKU) of oilseed rape, with R² values ranging from 0.07 to 0.08 and from 0.10 to 0.11, respectively, when data were fitted to a logarithmic equation model. In approximately 30% of trials, RRY reached 90%, while soil test available K values were below the critical limit, indicating that soil K values at the time of sampling (within 1 week of rice harvest) underestimated the actual soil K supply capacity. The pot experiment results showed that soil available K was affected by straw incorporation and soil type in the fallow period. The NH₄OAc‐K and NaBPh₄‐K concentrations of soils increased at first, and then, plateaued after 28 days. Straw incorporation significantly influenced the critical soil K concentration, which is important for making accurate K fertilizer recommendation. These results suggested that straw K should be seriously considered in making K fertilizer recommendations. Extending the sampling time from 1 to 3 weeks after the harvesting of rice to stabilize the effects of straw incorporation may help achieve a more accurate evaluation of soil available K.     

Dynamic change of mineral nutrient content in different plant organs during the grain filling stage in maize grown under contrasting nitrogen supply

The introduction of new hybrids and integrated crop-soil management has been causing maize grain yield to increase. However, less attention has been paid on the nutrient concentration of the grain; this aspect is of great importance to supplying calories and nutrients in the diets of both humans and animals worldwide. Increasing the retranslocation of nutrients from vegetative organs to grain can effectively increase the nutrient concentration of grain and general nutrient use efficiency. The present study involved monitoring the dynamic change of macro- and micronutrients in different organs of maize during the grain filling stage. In addition, the mobility of different elements and their contribution to grain nutrient content were evaluated in a 2-year experiment under low (LN, no N supplied) and high N (HN, 180 kg N ha⁻¹) supply. Under HN supply, the net remobilization efficiency (RE) of the vegetative organs as a whole (calculated as nutrient remobilization amount divided by nutrient content at silking) of N, P, K, Mn, and Zn were 44%, 60%, 13%, 15%, and 25%, respectively. The other nutrients (Mg, Ca, Fe, Cu, and B) showed a net accumulation in the vegetative organs as a whole during the grain filling stage. Among the different organs, N, P, and Zn were remobilized more from the leaves (RE of 44%, 51% and 43%, respectively) and the stalks (including leaf sheaths and tassels) (RE of 48%, 71% and 43%, respectively). K was mainly remobilized from the leaves with RE of 51%. Mg, Ca, Fe, Mn, and Cu were mostly remobilized from the stalks with the RE of 23%, 9%, 10%, 42%, and 28%, respectively. However, most of the remobilized Mg, Ca, Fe, Mn, Cu, and Zn were translocated to the husk and cob, which seemingly served as the buffer sink for these nutrients. The REs of all the nutrients except for P, K, and Zn were vulnerable to variations in conditions annually and were reduced when the grain yield and harvest index were lower in 2014 compared with 2013. Under LN stress, the RE was reduced in P and Zn in 2013, increased in Cu and unchanged in other nutrients. The concentration of these nutrients in the grain was either unchanged (P, K, Ca, Zn, and B) or decreased (N, Mg, Fe, Mn, and Cu). It is concluded that grain N, P, K, Mn, and Zn, but not Mg, Ca, Fe, Cu, and B concentration, can be improved by increasing their remobilization from vegetative organs. However, enhancing the senescence of maize plant via LN stress seems unable to increase grain mineral nutrient concentration. Genetic improvement aiming to increase nutrient remobilization should take into account the organ-specific remobilization pattern of the target nutrient.     

双季稻最佳磷肥和钾肥用量与密度组合研究

【目的】为明确磷肥、钾肥用量和移栽密度对双季稻的施用效果,在田间试验条件下研究了不同磷肥用量、钾肥用量和移栽密度组合对江西双季稻产量、产量构成要素及磷肥和钾肥利用率的影响。【方法】本研究采用裂区试验设计研究了不同施磷量和移栽密度、不同施钾量和移栽密度对双季稻产量、磷肥和钾肥利用率的影响。磷肥用量和移栽密度试验中,设4个施磷水平(P2O5 0、60、90、120 kg/hm2,以P0、P60、P90和P120表示)和4种移栽密度(21×104、27×104、33×104、39×104 穴/hm2,以D21、D27、D33和D39表示)组合。钾肥用量和移栽密度试验中,设4个施钾水平(K2O 0、90、120、150 kg/hm2,以K0、K90、K120和K150表示),密度设置同磷肥试验。在水稻成熟期对产量以及产量构成要素进行测定,并分析其磷素和钾素的吸收量和利用率等指标。【结果】磷肥与密度试验中,同一施磷水平下,早稻产量和地上部磷素吸收量随着移栽密度的增加而增加,当施磷量超过60 kg/hm2时,产量和磷素吸收量不再随密度增加而显著增加,磷素吸收利用率(REP)、磷素农学效率(AEP)和磷素偏生产力(PFPP)逐步降低,以P60D39处理组合的产量和磷素吸收利用率最高,分别为5303.9 kg/hm2和24.4%,AEP为29.4 kg/kg; 晚稻则以施磷量在60 kg/hm2和33×104 穴/hm2密度组合的产量和磷素吸收利用率最高,分别为7246.9 kg/hm2和42.4%,AEP为36.2 kg/kg。钾肥与密度试验中,早稻的钾素吸收量随着施钾量的增加而增加,施钾量在120 kg/hm2和39×104 穴/hm2密度组合的处理产量和钾素吸收利用率(REK)最高,分别为6376.3 kg/hm2和67.2%,此时钾素农学效率(AEK)为15.6 kg/kg; 晚稻则以施钾量在90 kg/hm2和33×104 穴/hm2密度组合的处理产量和REK最佳,分别为7025.6 kg/hm2和74.0%,AEK为21.7 kg/kg。【结论】合理的磷肥、钾肥用量和移栽密度可以显著增加水稻单位面积有效穗数和养分累积量,进而增加水稻产量和肥料利用率,但过高的磷肥和钾肥施用会抑制产量的进一步增加。建议本研究区域的早稻采用施磷量在60 kg/hm2、施钾量120 kg/hm2和39×104穴/hm2的密度组合,而晚稻采用施磷量60 kg/hm2、施钾量90 kg/hm2和33×104 穴/hm2的密度组合。     

添加复合酶对临武鸭瓜尔豆胚芽养分、氨基酸和能量利用率的影响

本试验旨在研究添加复合酶对临武鸭瓜尔豆胚芽养分、氨基酸和能量利用率的影响。试验选用24只体重2.0 kg左右的健康成年临武鸭公鸭,随机分为3组,每组8个重复,每个重复1只鸭。采用绝食强饲-全收粪法进行代谢试验。1、2组试验鸭每只强饲60 g/d饲粮,2组饲粮中添加250 mg/kg的复合酶,3组强饲60 g/d无氮饲粮。测定添加复合酶对临武鸭瓜尔豆胚芽中干物质(DM)、粗蛋白质(CP)、粗脂肪(EE)、粗纤维(CF)和17种氨基酸的表观利用率、真可利用率、表观代谢能(AME)和真代谢能(TME)。结果表明,临武鸭对瓜尔豆胚芽DM、CP、EE、CF和能量的真可利用率分别为67.07%、67.57%、65.52%、82.88%和77.39%,AME和TME分别为11.34和13.31 MJ/kg,17种氨基酸的真可利用率为67.72%~93.70%;添加复合酶使临武鸭的DM、CP、EE、CF和能量的真可利用率分别提高了5.23%、8.02%、5.80%、3.66%和3.31%(P0.05),AME和TME分别提高了3.97%和3.27%(P0.05),17种氨基酸的真可利用率提高了1.73%~11.62%,其中丝氨酸、甘氨酸、亮氨酸、酪氨酸和苯丙氨酸的真可利用率显著提高(P0.05)。由此可知,添加含有蛋白酶和非淀粉多糖酶的复合酶能够提高临武鸭对瓜尔豆胚芽中养分、氨基酸和能量的利用率。     

Effects of Lactic Acid Bacteria and Fructooligosaccharides on Growth Performance,Nutrient Digestibility and Serum Biochemical Indices of Arctic Foxes (Alopex lagopus) during Early Growth Period北大核心CSCD

This experiment was conducted to study the effects of dietary lactic acid bacteria (LAB) and fructooligosaccharides (FOS) on growth performance, nutrient digestibility and serum biochemical indices of Arctic foxes (Alopex lagopus) during early growth period. Sixty male post-litter Arctic foxes with the average body weight of (1.16±0.15) kg and at the age of (45±3) days were randomly assigned to 4 groups with 3 replicates per group and 5 foxes per replicate. The foxes were fed the following diets, respectively: basal diet (control group), basal diet+3×109 CFU / kg LAB (LAB group), basal diet+5 g / kg FOS (FOS group) and basal diet+3×109 CFU / kg LAB+5 g / kg FOS (LAB+FOS group). The experiment lasted for 30 days. The results showed as follows: 1) on the days 1 to 15, the diarrhea rate of foxes in the LAB group and LAB+FOS group was significantly lower than that in the control group and FOS group (P<0.05). On the days 16 to 30, the average daily gain of foxes in the LAB+FOS group was significantly higher than that in the control group and FOS group (P<0.05), but had no significant difference with LAB group (P>0.05); the diarrhea rate of foxes in the LAB+FOS group was significantly lower than that in the control group and FOS group (P<0.05), but had no significant difference with LAB group (P>0.05); compared with the FOS group, the feed to gain ratio of foxes in the LAB+FOS group was significantly decreased (P<0.05). 2) The dry matter digestibility of foxes in the LAB + FOS group was significantly higher than that in the control group and FOS group (P < 0.05), but had no significant difference with LAB group (P>0.05). There were no significant differences in nitrogen intake, fecal nitrogen, urine nitrogen, nitrogen deposition, net protein utilization and protein biological value among all groups (P>0.05). 3) Serum total protein (TP) content of foxes in the LAB+FOS group was significantly higher than that in the FOS group (P<0.05), but had no significant difference with control group and LAB group (P>0.05). Serum albumin (ALB) content of foxes in the LAB group was significantly higher than that in the control group and FOS group (P<0.05), but had no significant difference with LAB+ FOS group (P>0.05). Serum urea nitrogen (UN) content of foxes in the LAB+FOS group was significantly decreased compared with the control group (P < 0. 05). In conclusion, the combined supplementation of 3 × 109 CFU / kg LAB and 5 g / kg FOS in the diet is beneficial to reduce diarrhea rate, improve dry matter digestibility, improve body immune level, and promote the growth of Arctic foxes during early growth period. © 2023 Chinese Journal of Urology. All rights reserved.     

饲粮添加硬脂酰乳酸钠对断奶仔猪生长性能、血清生化指标及养分表观消化率的影响

本试验旨在研究硬脂酰乳酸钠(SSL)对断奶仔猪生长性能、血清生化指标及养分表观消化率的影响。试验选择25日龄的断奶仔猪336头,按体重随机分为6组,每组7个重复,每个重复8头猪。各组仔猪饲粮中SSL添加水平分别为0(对照)、250、500、750、1 000和2 000 mg/kg,试验分2个阶段,每阶段21 d。试验测定仔猪生长性能,谷丙转氨酶、谷草转氨酶、总胆固醇等血清生化指标及能量、干物质、氮和粗脂肪表观消化率。结果表明:与对照组相比,1)饲粮中添加500、750和1 000 mg/kg SSL能显著降低仔猪第2阶段料重比(P0.05),添加1000 mg/kg SSL显著降低全期料重比(P0.05);2)饲粮中添加SSL有降低试验第42天仔猪血清谷草转氨酶、谷丙转氨酶活性,增加血清高密度蛋白胆固醇含量及高密度蛋白胆固醇/低密度蛋白胆固醇值的趋势,且当添加水平为2 000 mg/kg时差异达到显著水平(P0.05);3)饲粮中添加SSL能显著提高粗脂肪表观消化率(P0.05),并且有提高氮及能量表观消化率的趋势,当添加水平为2 000 mg/kg时差异达到显著水平(P0.05)。结果提示,饲粮添加SSL能降低仔猪料重比,提高饲料养分尤其是粗脂肪的表观消化率。     

桃PpSnRK1α在番茄中过表达对营养胁迫下植株生长的影响

以番茄(Solanum lycopericum)超表达桃SnRK1(蔗糖非发酵蛋白激酶–1)基因PpSnRK1α的株系及野生型为试材,研究在养分供应不足时SnRK1对植株生长的影响。结果表明,低营养条件下,转基因番茄叶片和根系中的Sn RK1酶活性比野生型高41.55%和39.46%;功能叶片的净光合速率平均比野生型高18.98%;低营养胁迫12 d的叶片SOD、POD、CAT活性比野生型高35.56%、28.85%和14.90%;根系活力比野生型高26.39%;茎和叶中氮磷含量显著高于野生型,钾含量两者差别不大,在根系中氮磷含量差别不大,而钾含量显著高于野生型,且氮素向地上部茎和叶中的分配比率增加。上述结果说明,在营养缺乏条件下,超表达PpSnRK1α可以提高番茄功能叶净光合速率,促进植株对氮素的吸收利用,从而延缓叶片衰老。     

饲粮铜源及水平对育成期雄性水貂生长性能、营养物质表观消化率及氮、铜代谢的影响

本试验旨在研究饲粮铜源及水平对育成期雄性水貂生长性能、营养物质表观消化率及氮、铜代谢的影响。采用3×3+1双因素试验设计,设3种铜源(硫酸铜、碱式氯化铜、蛋氨酸铜)和3个铜添加水平(10、25、40 mg/kg),1个对照组。选择60日龄健康、体重接近的美国短毛黑雄性水貂120只,随机分成10组,每组12个重复,每个重复1只貂。预试期7 d,正试期45 d。结果表明:1)水貂的平均日采食量随饲粮铜添加水平的增加呈极显著线性增加(P0.01),并且平均日增重随饲粮铜添加水平的增加也呈线性增加(P=0.053)。2)水貂的粗脂肪表观消化率随饲粮铜添加水平的增加呈极显著线性增加(P0.01),并且粗蛋白质表观消化率随饲粮铜添加水平的增加也呈显著线性增加(P0.05)。3)水貂铜摄入量、粪铜排泄量、尿铜排泄量以及铜沉积量均随饲粮铜添加水平的增加呈极显著线性增加(P0.01),然而铜的表观吸收率却随饲粮铜添加水平的增加呈极显著线性降低(P0.01)。水貂对碱式氯化铜和蛋氨酸铜的表观吸收率极显著高于对硫酸铜的表观吸收率(P0.01)。水貂氮沉积量随饲粮铜添加水平的增加而呈显著线性增加(P0.05)。由此可见,基础饲粮中铜含量为8.05 mg/kg时,饲粮添加40 mg/kg的铜能改善育成期雄性水貂生长性能,提高水貂粗脂肪表观消化率;育成期雄性水貂对碱式氯化铜和蛋氨酸铜的表观吸收率高于对硫酸铜的表观吸收率。     

The optimal nutrition of maize in the hungarian national long‐term field experimental network

In Hungary, maize is grown on 1 million ha and occupies more than 20% of the arable land. The rich assortment of maize cultivars of different vegetation periods and different responses to nutritional effects, water supply etc. gives the growers the possibility to choose the cultivars suiting best the site characteristics (Jolânkai et al. 1999). Among the cereals maize has the highest genetical potential. To utilize its yield and quality potential, soil types of high nutrient content and regular nutrient supply are required (Gyõrffy, 1979). Both over‐ and under‐fertilization have an unfavourable effect on the yield and quality of maize (Debreczeni, 1985). Crops can be supplied with the appropriate nutrient amounts only with the knowledge of soil characteristics in the different agro‐ecological regions (nutrient content, water supply, soil compactness, pH, nutrient supplying capacity etc.). In Hungary, a network of long‐term field fertilization trials with uniform fertilizer treatments has been maintained at nine experimental sites representing different agro‐ecological regions of the country. This experimental network gives a basis to test the nutrient responses of our main crops and calibrate their optimal nutrient supply (Kismányoky, 1991).