Changes of nutrient concentrations and N:P:Si ratios and their possible impacts on the Huanghai Sea ecosystem

To investigate the impacts of nutrient concentrations and N：P：Si ratios on the ecosystem of the Huanghai Sea （Yellow Sea）, the current status and long-term variation of nutrients concentrations and ratios as well as phytoplankton community structure in the Huanghai Sea were collected and analyzed. The results reveal great annual and seasonal fluctuations in the nutrient concentrations and N：P：Si ratios during 1998-2008 with no clear pattern observed in the whole region. Yet on a seasonal scale of spring and in the coastal regions such as the Jiaozhou Bay and Sanggou Bay, the increase of DIN concentration and N：P ratio as well as the decrease of phosphate and sili- cate concentrations and Si：N ratios were relatively significant. Many pelagic ecosystem changes have occurred concurrent with these changes of the nutrient regime, such as the recent increase of primary production, changes of phytoplankton chlorophyll a biomass and abundance, an increase of eutrophication, and occurrence of HABs. In addition, new trends in the variation of nutrients seem to be developing in some particular transect such as 36N, which suggests that long-term and systematic ecosystem monitoring in the Huanghai Sea is necessary.

Effects of dietary forage to concentrate ratio and wildrye length on nutrient intake, digestibility, plasma metabolites, ruminal fermentation and fecal microflora of male Chinese Holstein calves

Twenty-eight male, weaned Chinese Holstein calves（（156.8±33.4） kg） were used to investigate the effects of dietary forage to concentrate ratio（F：C） and forage length on nutrient digestibility, plasma metabolites, ruminal fermentation, and fecal microflora. Animals were randomly allocated to four treatments in a 2×2 factorial arrangement： whole-length forage（WL） with low F：C（50：50）; WL with high F：C（65：35）; short-length forage（SL） with high F：C（65：35）; and SL with low F：C（50：50）. Chinese wildrye was used as the only forage source in this trial. The grass in the SL treatments was chopped using a chaff cutter to achieve small particle size（-50% particles 〉19 mm）. Dry matter intake（DMI） and organic matter（OM） intake was increased by increasing both F：C（P〈0.01） and forage length（FL）（P〈0.05）, while acid detergent fiber（ADF） and neutral detergent fiber（NDF） intakes were only increased by increasing the F：C（P〈0.01）. The digestibility of NDF was increased as the FL increased（P〈0.01）, and it was also affected by interaction between F：C and FL（P〈0.05）. Cholesterol（CHO）（P〈0.01）, leptin（LP）（P〈0.05）, and growth hormone（GH）（P〈0.01） concentrations in plasma were increased as dietary F：C increased. A significant increase in plasma triglyceride（TG）（P〈0.01）, insulin（INS）（P〈0.05）, and GH（P〈0.01） levels was observed with decreasing dietary FL. Ruminal p H values of calves fed with low F：C diets were significantly lower than those in high F：C treatment（P〈0.05）. Increasing the F：C enhanced ruminal acetic acid（P〈0.05） and acetic acid/propionic acid（P〈0.01）. Fecal Lactobacillus content was significantly higher, while Escherichia coli and Salmonella contents were significantly lower in WL and high F：C groups（P〈0.05）. Lower fecal scores（higher diarrhea rate） were observed in calves fed with SL hay compared to WL hay（P〈0.05）. Denatured gradient gel electrophoresis（DGGE） bands and richness index（S） were significantly affected by the interaction between F：C and FL（P〈0.05）, under high F：C, band numbers and richness index from WL group were higher than that from SL group（P〈0.05）, whereas there were no differences between WL andSL groups under low F：C（P〉0.05）. Microflora similarity was 50–73% among the different treatments. It is concluded that the WL with high F：C（65：35） diet is suitable for weaned calves.

Effect of nitrogen and phosphorus addition on leaf nutrient concentrations and nutrient resorption efficiency of two dominant alpine grass species

Nitrogen(N)and phosphorus(P)are two essential nutrients that determine plant growth and many nutrient cycling processes.Increasing N and P deposition is an important driver of ecosystem changes.However,in contrast to numerous studies about the impacts of nutrient addition on forests and temperate grasslands,how plant foliar stoichiometry and nutrient resorption respond to N and P addition in alpine grasslands is poorly understood.Therefore,we conducted an N and P addition experiment(involving control,N addition,P addition,and N+P addition)in an alpine grassland on Kunlun Mountains(Xinjiang Uygur Autonomous Region,China)in 2016 and 2017 to investigate the changes in leaf nutrient concentrations(i.e.,leaf N,Leaf P,and leaf N:P ratio)and nutrient resorption efficiency of Seriphidium rhodanthum and Stipa capillata,which are dominant species in this grassland.Results showed that N addition has significant effects on soil inorganic N(NO_(3)^(-)-N and NH_(4)^(+)-N)and leaf N of both species in the study periods.Compared with green leaves,leaf nutrient concentrations and nutrient resorption efficiency in senesced leaves of S.rhodanthum was more sensitive to N addition,whereas N addition influenced leaf N and leaf N:P ratio in green and senesced leaves of S.capillata.N addition did not influence N resorption efficiency of the two species.P addition and N+P addition significantly improved leaf P and had a negative effect on P resorption efficiency of the two species in the study period.These influences on plants can be explained by increasing P availability.The present results illustrated that the two species are more sensitive to P addition than N addition,which implies that P is the major limiting factor in the studied alpine grassland ecosystem.In addition,an interactive effect of N+P addition was only discernable with respect to soil availability,but did not affect plants.Therefore,exploring how nutrient characteristics and resorption response to N and P addition in the alpine grassland is important to understand nutrient use strategy of plants in terrestrial ecosystems.

Characteristics of nutrients in the Jiulong River and its impact on Xiamen Water, China

Water samples were collected at 20 sites on 4 occasions in 2009(twice in May,and once in both August and November) along the Jiulong River,South China to examine how nutrient inputs from the Jiulong River could affect the nutrient status of the Xiamen Water.Samples were analyzed for nitrite(NO2-N),nitrate(NO3-N),ammonium(NH4-N),phosphate(PO4-P),silicate(SiO3-Si),salinity,and temperature,to determine the nutrient and trophic status of the river.The results indicate that nutrients are derived mainly from river runoff.NO3-N was the main form of DIN in most parts of the river.In addition,NO3-N,DIN,and SiO3-Si behave conservatively.There is a surplus of DIN and SiO3-Si in the river,and PO4-P is a limitation on phytoplankton growth.The concentration of DIN is typically above 0.60 mg/dm3,and higher than 1.00 mg/dm3in most parts of the river.The concentration of PO4-P is typically above 0.02 mg/dm3,while the concentration of SiO3-Si is higher than 1.00 mg/dm3.Between 2003 and 2008,samples were collected 3 times per year(May,August and November) at 27 sites in the Xiamen Water and analyzed for NO2-N,NO3-N,NH4-N,PO4-P,salinity,and temperature.We discovered that the Jiulong River was the key source of DIN into the Xiamen Water,but not PO4-P,indicating the reason of the N/P molar ratio imbalance in the Xiamen Water.In the future,the effects of high DIN concentrations on the phytoplankton communities and marine ecosystems of the Xiamen Water shall be studied.

Effects of salinity and nutrients on the growth and chlorophyll fluorescence of Caulerpa lentillifera

Caulerpa lentillifera is a green algae that distributes worldwide and is cultivated for food. We assessed vegetative propagation of C. lentillifera by measuring the specific growth rate(SGR) and chlorophyll fluorescence of the green algae cultured at different salinities and nutrient levels. The results indicated that C. lentillifera can survive in salinities ranging from 20 to 50,and can develop at salinities of 30 to 40. The maximum SGR for C. lentillifera occurred at a salinity of 35. Both chlorophyll content and the ratio of variable to maximum fluorescence( Fv / Fm) were also at a maximum at a salinity of 35. Photosynthesis was inhibited in salinities greater than 45 and less than 25. Both the maximum SGR and maximum chlorophyll content were found in algae treated with a concentration of 0.5 mmol/L of NO3-N and 0.1 mmol/L of PO 4-P. The photosynthetic capacity of photosystem II(PSII) was inhibited in cultures of C. lentillifera at high nutrient levels. This occurred when NO3-N concentrations were greater than 1.0 mmol/L and when PO4- P concentrations were at 0.4 mmol/L. As there is strong need for large-scale cultivation of C. lentillifera,these data contribute important information to ensure optimal results.

Spatial and Seasonal Dynamics of Dissolved and Suspended Nutrients in the Water Column of Meromictic Lake Shira

1 Introduction The vertical stratification of the water column has a significant impact on the spatial distribution of aquatic organisms,the dynamics and structure of the food web in

Effect of Shoot-Fruit Ratio on Grape Yield,Quality and Storage Nutrient

With the grape variety ＂Summer Black＂ as the test material, the effects of different shoot-fruit ratios on grape yield, fruit quality and grapevine storage nutrient were investigated for 2 consecutive years, so as to determine the optimized load for Summer Black grapes in Shandong. The results showed that the grapes with shoot-fruit ratio of 1∶ 1 had the highest soluble solid content, vitamin C content and grapevine storage nutrient. Based on the comprehensive analysis, the shoot-fruit ratio of 1∶ 1 was the optimized load for Summer Black grapes in Tai an of Shandong Province, and the yield was 1 179.37-1 288.63 kg per 667 m^2.

伊犁河谷山地土壤养分化学计量比及其影响因素

探究干旱区山地生态系统中不同海拔梯度土壤化学计量比及影响因子,对揭示土壤养分状况、维持山地生态系统可持续发展具有重要意义。本文以伊犁河谷南部山地沿海拔梯度建立13个样地,以0~20 cm土壤为研究对象,探究土壤养分化学计量比及其影响因素。结果表明:1)土壤酸性随着海拔的升高逐渐增强。土壤有机碳与全氮表现出中高山带含量显著高于低山带,而全磷和全钾则表现为低山带含量较高,中高山带含量较低。2)由于海拔差异,碳氮比表现为中高山带显著高于低山带和高山带;碳磷比表现为中高山带显著高于中低山带;碳钾比表现为中高山带显著高于低山带;氮磷比表现为高山带显著较高,但过渡带与低山带无显著差异;氮钾比表现为高山带显著较高,而中高山带与过渡带无显著差异;不同海拔梯度间磷钾比差异性均不显著。3)土壤理化指标中影响化学计量比的主导因子为土壤有机碳(62.4%)、全磷(15.9%)、全碳(13.7%);环境因子对土壤化学计量比产生影响的主导因子为土壤年均温(27.1%)、植被指数(11.2%)、海拔(12.3%)、大气年均温(3.4%)。研究结果说明,理化指标对土壤化学计量比具有重要影响,并且进一步验证了海拔仍然是影响化学计量比的主导因子,同时揭示了微环境因子对土壤化学计量比的影响不容忽视,为深入研究伊犁河谷山地土壤养分状况提供科学依据。

氮、磷、钾肥对紫穗槐幼苗根叶化学计量特性的影响

探讨紫穗槐根和叶化学计量特性对养分的适应性,为豆科植物施肥和限制模式的研究提供依据,采用三因素(氮(N)、磷(P)、钾(K)),三水平(N1,N2,N3,P1,P2,P3,K1,K2,K3)的施肥处理,测定紫穗槐幼苗根和叶的碳(C)、氮、磷、钾含量,分析根和叶各元素之间的关系。结果表明,在P、K添加下,叶片比根系有更强的响应,根系对N添加有更强的反应。叶片和根N含量、根N/K和N/P随施氮水平的增加而显著增加,根P/K、叶P/K和根C/N显著降低。随着施磷量的增加,叶片N、P、K含量、根P含量、根N/K和P/K显著增加,叶N/K和叶N/P显著降低;根和叶K含量随施钾量的增加而显著增加,根N/K和P/K、叶N/K和P/K显著降低。叶P含量与根P含量、叶K含量与根K含量呈显著正相关,叶C、N含量与根C、N含量之间的关系不显著,而叶根N、P、K含量分别与相应的C/N、N/P和N/K呈显著负相关。叶和根的C/N之间的关系不显著,而叶的N/P、N/K和P/K之间的相关性显著。隶属函数分析结果表明,在紫穗槐C、N、P、K含量的累积方面,N2处理最佳。N的添加导致P对叶片和根的限制;P的添加导致N对叶片和根系的限制;K的添加并没有改变限制模式。研究结果可为紫穗槐的合理施肥和科学管理提供依据。

适宜氮磷钾用量和配比协同促进盆栽牡丹营养和生殖生长

【目的】牡丹是我国著名的木本观赏植物,施肥不平衡严重影响盆栽牡丹的生长和观赏效果。研究开花前后氮、磷、钾不同施用量和配施比例对盆栽牡丹生长的影响,确定适宜的氮、磷、钾施用量及配比,为盆栽牡丹精准施肥提供理论依据。【方法】本研究以5年生牡丹‘紫二乔’为供试材料,采用“3414”不完全正交回归设计进行盆栽试验,结合隶属函数法评价牡丹的生长状况,利用肥料效应模型拟合牡丹植株的综合隶属函数值与施肥量之间的数学关系,得出牡丹最佳生长的氮、磷、钾肥推荐施肥量。【结果】牡丹开花前后施用氮磷钾肥显著影响植株株高、茎粗、冠幅、花径和单株花数(P<0.05),适宜氮磷钾用量和配比促进盆栽牡丹营养和生殖生长的协同提高。氮、磷、钾三因素配合处理的牡丹综合隶属函数值均大于缺素处理,缺素处理又大于无肥处理,N_(2)P_(2)K_(2)处理的综合隶属函数值(0.73)是N_(0)P_(0)K_(0)的3.17倍。氮磷钾对牡丹综合生长的影响表现为氮>磷>钾。氮、磷、钾肥对牡丹营养和生殖生长存在明显交互作用,任一肥料水平的过量或不足均会抑制牡丹植株生长,降低观赏效果。采用一元二次、二元二次、三元二次肥料效应函数方程拟合牡丹的综合隶属函数值和施肥量,二者相关性均达显著水平,综合各肥料效应函数方程的推荐用量及相应的综合隶属函数值,得出牡丹开花前后氮(N)、磷(P_(2)O_(5))、钾(K_(2)O)的最优推荐施肥量分别为4.21、2.07、2.52 g/株,适宜的氮、磷、钾施肥比例为1∶0.49∶0.60。【结论】开花前后施用适量的氮、磷、钾肥可提高牡丹的农艺性状,促进牡丹的营养和生殖生长协同提高。氮、磷、钾的最优推荐施肥量为4.21、2.07、2.52 g/株,适宜的氮、磷、钾施肥比例为1∶0.49∶0.60。

饲粮精粗比对泌乳盛期文登奶山羊泌乳性能、养分表观消化率及血清生化指标的影响

本试验旨在探究饲粮精粗比对泌乳盛期文登奶山羊泌乳性能、养分表观消化率及血清生化指标的影响。试验配制5种饲粮,其粗蛋白质(CP)、钙(Ca)、磷(P)含量基本一致饲粮,但精粗比分别为70:30(D70组)、60:40(D60组)、50:50(D50组)、40:60(D40组)、30:70(D30组)。选用体重(45.28±1.24)kg、产奶量(2.11±0.27)kg/d、3胎且处于泌乳盛期(产羔90 d)的体况健康的文登奶山羊60只,随机分为5组,每组3个重复,每个重复4只羊。试验期为75 d,其中预试期15 d,正试期60 d。结果显示:1)D70组的平均日采食量(ADFI)极显著高于其他各组(P<0.01);D70组和D60组的日平均产奶量(DMY)极显著高于D50组、D40组和D30组(P<0.01),且D70组显著高于D60组(P<0.05);D70组和D60组的4%标准乳(4%FCM)产量极显著高于D50组、D40组和D30组(P<0.01);D30组的料奶比(F/M)极显著高于其他各组(P<0.01);D30组的乳脂率极显著高于D70组(P<0.01),显著高于D60组和D50组(P<0.05);D70组的乳蛋白率和乳糖率显著高于其他各组(P<0.05)。2)D70组的干物质(DM)和CP表观消化率极显著高于其他各组(P<0.01);D70组和D60组的粗脂肪(EE)表观消化率极显著高于D50组、D40组和D30组(P<0.01);D70组的中性洗涤纤维(NDF)、酸性洗涤纤维(ADF)和酸性洗涤木质素(ADL)表观消化率极显著高于D40组和D30组(P<0.01),显著高于D50组(P<0.05)。3)D70组、D60组和D50组血清葡萄糖(GLU)含量显著高于D40组和D30组(P<0.05);D50组、D40组和D30组血清丙氨酸氨基转移酶(ALT)活性显著高于D70组和D60组(P<0.05);D70组血清总超氧化物歧化酶(T-SOD)活性显著高于其他各组(P<0.05);D30组血清丙二醛(MDA)含量显著高于D70组、D60组和D50组(P<0.05);D60组血清免疫球蛋白A(IgA)含量极显著高于D40组和D30组(P<0.01),显著高于D50组(P<0.05)。综上所述,饲粮精粗比为70:30时泌乳盛期文登奶山羊的泌乳性能、养分表观消化率、抗氧化和免疫功能较好。

磷肥有机替代、秸秆还田对棉花养分吸收和磷肥利用效率的影响

为探究磷肥有机替代、秸秆还田对棉花养分吸收、磷肥利用效率及棉花产量的影响,本研究基于国家灰漠土肥力与肥料效益监测站5年田间微区棉花连作定位试验,以7种施肥措施为样本,于2022年棉花成熟期开展棉田土壤田间调查研究。结果表明,磷肥有机替代和秸秆还田均能提升棉株氮磷钾养分吸收,各器官氮素平均含量在1.75~40.90 g·kg^(-1)之间,磷素平均含量在1.46~11.28 g·kg^(-1)之间,钾素平均含量在3.11~25.03 g·kg^(-1)之间。综合肥料投入和养分吸收,50%的磷肥有机替代和秸秆还田最能增强棉株吸氮能力和促进干物质积累,50%的磷肥有机替代对棉株吸磷能力最强且最有利于实现棉花节肥增钾的效果。棉株各器官N:P变化范围为1.20~12.01,磷肥有机替代和秸秆还田使茎、叶、蕾/铃/壳的N∶P明显降低,棉株生物量、籽棉产量随茎、叶、蕾/铃/壳N∶P的降低而增加,本试验棉花生长更倾向于受N、P共同限制。磷肥利用率随有机替代量的增加从12.54%提升到33.04%,土壤磷素盈余量随有机替代量的增加从28.20 kg·hm^(-2)降低到19.66 kg·hm^(-2)。研究表明,在北疆灰漠土棉区采用50%磷肥有机替代,即施磷(P2O5)60.0 kg·hm^(-2)和配施羊粪9 784.8 kg·hm^(-2),对棉花产量、生物量、养分吸收的综合效应最优,值得推广应用。

祁连山北麓荒漠草原5种优势植物生物量与土壤养分特征

为明晰荒漠草原优势植物的植物生物量与土壤养分关系,研究选取祁连山北麓肃北区域荒漠草原骆驼蓬(Peganum harmala)、狗尾草(Setaria viridis)、中华羊茅(Festuca sinensis)、碱茅(Pucci-nellia distans)和冰草(Agropyron cristatum)5种优势植物,测定该其生物量和根际土壤养分,探究其植物生物量分配及其与土壤养分间的关系。结果表明:(1)5种优势植物间总生物量和根冠比差异显著(P<0.05),骆驼蓬总生物量最高,碱茅最低。多年生的骆驼蓬、碱茅、中华羊茅和冰草植物生物量大部分集中在地下,一年生的狗尾草植物生物量大部分集中在地上,不同植物间根冠比大小为:碱茅>冰草>中华羊茅>骆驼蓬>狗尾草。(2)5种植物根际土壤有机碳、碱解氮、速效钾、全氮、全磷、全钾及其化学计量特征均存在显著差异(P<0.05),5种植物根际间土壤碳氮比大小为碱茅>狗尾草>冰草>骆驼蓬>中华羊茅。(3)不同植物生物量、根冠比及土壤养分变异性不一致,骆驼蓬、狗尾草和中华羊茅的根际土壤全钾与碱茅和冰草的根际土壤含水量等均为弱变异,而土壤养分及其化学计量特征为中等变异。5种优势植物的生物量与根际土壤碱解氮和全钾呈正相关性(P<0.05)。可见荒漠草原生态系统中植物生物量分配和根际土壤养分在生活史和物种间的差异较大,今后应根据不同优势植物养分需求,合理施肥来修复退化的荒漠生态系统。

不同精粗比饲粮对秋季羔羊生长性能、养分表观消化率、瘤胃发酵和血清免疫指标的影响

试验旨在研究不同精粗比饲粮对秋季羔羊生长性能、瘤胃发酵、养分表观消化率和血清免疫指标的影响。试验选取4月龄“杜泊×小尾寒羊”F1代杂交公羔30只,随机分为3组,每组10个重复,每个重复1只羊。试验Ⅰ组、Ⅱ组、Ⅲ组分别饲喂精粗比为40∶60、55∶45、70∶30的饲粮。结果显示:试验Ⅲ组羔羊的平均日增重显著高于试验Ⅰ组(P<0.05),试验Ⅱ组和Ⅲ组料重比显著低于试验Ⅰ组(P<0.05)。试验Ⅰ组干物质、有机质、粗蛋白和中性洗涤纤维的表观消化率均显著低于其他组(P<0.05),试验Ⅱ组有机物的表观消化率显著高于试验Ⅲ组(P<0.05)。试验Ⅰ组羔羊的瘤胃内丙酸含量显著低于其他组(P<0.05),试验Ⅰ组的乙丙比显著高于其他组(P<0.05)。试验Ⅱ组血清免疫球蛋白G含量显著高于试验Ⅲ组(P<0.05),试验Ⅱ组血清中白细胞介素-6含量显著低于其他组(P<0.05)。研究表明,饲粮精粗比为55∶45时可以使秋季羔羊发育更健康,提高了饲料利用率和生长性能,增加了经济效益。

大兴安岭寒温带森林演替过程中土壤碳氮磷含量及生态化学计量特征

通过研究森林演替过程中土壤碳氮磷含量的变化特征及其化学计量比,分析在0~200 cm土层中,不同演替阶段土壤有机碳氮磷含量的变化情况。选择黑龙江漠河森林生态系统国家级定位观测研究站森林演替过程中3个典型阶段的代表群落,即兴安落叶松林、落叶松-白桦混交林和白桦林为研究对象,分别对其碳氮磷含量分析。结果表明,在演替前期(白桦林)的土壤中,C含量范围为5.78~28.29 g/kg,N含量为0.243~1.232 g/kg,P含量为0.243~1.232 g/kg。演替中期(落叶松-白桦混交林)C含量为6.39~29.41g/kg,N含量为0.077~1.472 g/kg,P含量为0.41~1.374 g/kg。而在演替后期(兴安落叶松林)的土壤中,C含量范围为6.36~34.61g/kg,N含量范围为0.353~1.463 g/kg,P含量范围为0.353~1.463 g/kg。不同林型的土壤C、N、P化学计量比也存在差异。在0~90 cm土层中,前期的C∶N范围为4.15~11.13,后期为5.92~21.85,中期为5.58~23.24。在90~200 cm土层中,前期的C∶N范围为7.46~19.8,后期为4.56~13.09,中期为5.88~18.07。在50~200 cm土层中,前期的C∶P为4.02~9.11,后期为2.24~10.51,中期为3.32~10.76。在0~200 cm土层中,前期的N∶P范围为0.51~2.95,后期为0.28~1.61,中期为0.36~2.13。通过分析显示,森林演替过程中土壤碳氮磷含量及其化学计量比存在一定的变化规律,了解这些变化规律有助于更好地评估森林生态系统营养循环和土壤质量的变化,为森林管理和保护提供科学依据。

长江源区退化高寒草甸植物和土壤化学计量特征

为了探究草地退化对高寒草甸植物和土壤碳(C)、氮(N)、磷(P)化学计量特征及植物群落内稳性的影响,以长江源多年冻土区未退化、中度退化和严重退化高寒草甸为研究对象,测定了不同退化程度高寒草甸植物群落叶片和土壤C、N、P含量,分析了其化学计量比及植物群落内稳性特征,以期为科学调控退化高寒草甸植物修复进程提供依据。结果表明:1)随着退化程度加剧,植物群落叶片C和N含量呈现先降低后增加趋势,土壤C和N含量呈现降低趋势,叶片P含量呈增加趋势,土壤P含量呈现先降低后增加趋势。2)未退化和严重退化阶段植物群落叶片N:P均大于16,植物群落倾向于受P限制;中度退化阶段植物群落叶片N:P小于14,植物群落倾向于受N限制。3)同一退化程度高寒草甸优势种间N:P也有较大差异,意味着不同物种可能受到不同营养元素的限制。4)植物群落叶片N和N:P表现出稳态型,P表现出绝对稳态型。本研究结果表明,未退化和严重退化阶段植物倾向于受P限制,中度退化阶段植物倾向于受N限制;在多年冻土区高寒草甸植物群落中,叶片N和P均具有较强的内稳性。

不同坡位轻木人工林土壤养分含量及其化学计量特征

碳(C)、氮(N)和磷(P)通常用于评估土壤质量。为了解云南西双版纳地区不同坡位轻木人工林生长土壤C、N和P含量及其化学计量特征差异,本研究通过野外调查采样与室内分析相结合的方法,以2年生轻木人工林为研究对象,分析比较上坡位和下坡位轻木人工林中土壤C、N和P的化学计量特征及其对轻木生长的影响。测定指标包括土壤有机碳(SOC)、总氮(TN)、总磷(TP)、碱解氮(AN)和有效磷(AP)含量,并评估两个坡位中SOC/TN、SOC/TP、TN/TP和AN/AP值的差异。结果表明:①下坡位轻木树高和胸径较上坡位分别显著增加23.39%和49.43%。②随着土层深度的增加,土壤SOC、TN、TP、AN和AP含量总体呈降低趋势;在3个不同深度的土层中AP含量均表现为下坡位显著高于上坡位,在20~40 cm土层中AN含量也表现出下坡位显著高于上坡位。③40~60 cm土层土壤各养分含量显著低于0~20 cm土层(上坡位TP除外),在0~60 cm 3个不同深度的土层中,AN/AP值均表现为上坡位显著高于下坡位;20~40 cm和40~60 cm土层中,SOC/TP值均表现为下坡位显著高于上坡位。④相关分析和主成分分析结果表明,在上坡位中,主要由SOC/TP、AN/AP和SOC/TN值反映土壤肥力情况;在下坡位中,主要由AP、AN和SOC含量反映土壤养分情况。综上,下坡位轻木的生长状况显著优于上坡位,土壤SOC、AP和AN含量对轻木的生长起关键性作用,也反映了TP、TN与AP、AN的转化情况;AN/AP值反映土壤中养分的可利用效率,对轻木的生长有直接相关作用,可作为当地评估林地养分是否缺失的信号。

甘肃省主要农作物秸秆养分资源估算

基于统计数据,分析了甘肃省2011—2020年的主要农作物产量和氮(N)、磷(P_(2)O_(5))、钾(K_(2)O)肥料的用量,并根据草谷比估算出甘肃省秸秆年产量,进而计算出秸秆中的总养分含量,为甘肃省化肥减量提供理论依据。结果表明,甘肃省的农作物中产量最大的是蔬菜,其中2016年产量最高,为1951.48万t,占到了农作物总产量的一半;其次是玉米,2020年产量最高,为616.83万t,占到了农作物总产量的25%。2011—2020年甘肃省的氮肥、磷肥和钾肥的施用量分别为30.93万t、14.93万t和7.83万t。农作物秸秆年总产量为1 948.17万t,其中含有N、P_(2)O_(5)、K_(2)O等养分总量分别为19.88万t、5.57万t、30.79万t。当这些秸秆完全还田后可使氮肥减量64.27%,磷肥减量37.31%,钾肥达到零施用。

含聚天冬氨酸微生物肥料中养分比例对西葫芦生长的作用初探

针对国内温室西葫芦生产过程中存在的盲目施用肥料而造成的瓜菜产量和品质的降低问题进行了研究。以河北培根生物科技有限公司生产的微生物肥料(添加聚天冬氨酸)为供试肥料,以N、P_(2)O_(5)、K_(2)O不同养分比例设置试验处理(T1、T2、T3)、普通复合肥料(N 15%、P_(2)O_(5) 15%、K_(2)O 15%)作为CK处理进行了相关试验,通过对西葫芦不同生物阶段的多个指标进行综合分析,结果发现,在试验范围内T1(N 16%、P_(2)O_(5) 9%、K_(2)O 20%)处理效果最佳;所试验的肥料促进西葫芦的营养生长、促进开花坐果、加快果实发育速度,还能提高瓜菜外观品质、可溶性糖含量和V_C含量,显著提高了产量和经济效益。

Effect of nutrient level on phytoplankton community structure in different water bodies

Increasing levels of pollution within water bodies can cause eutrophication and an associated rapid growth in and reproduction of phytoplankton. Although most frequently occurring in bodies of water such as lakes and dams, in recent years an increasing number of river systems in China have suffered serious algal blooms. The community structure of phytoplankton may differ, however, dependent on the hydrodynamic conditions and nutrient levels within the water body. The field investigation results obtained from a stagnant river in Suzhou City and Taihu Lake, China, showed that in water with higher concentrations of nitrogen and phosphorus, Chlorophyta became the predominant species and in water with lower concentrations of nitrogen and phosphorus, Cyanobacteria became the predominant species. Growth experiments with competitive species, Microcystis aeruginosa Kutz and Scenedesmus quadricauda （Turp.）, were conducted at three different nutrient levels. The biomass of algae in pure and mixed cultures was measured under conditions of different N/P ratios at oligotrophic, eutrophic and hypertrophic nutrient levels. The results indicated that the most suitable state for the growth and reproduction of M. aeruginosa and S. quadricauda were eutrophic conditions in both pure and mixed cultures. Under competition, however, the lower medium nutrient levels favoured M. aeruginosa, while the higher medium nutrient levels better suited S. quadricauda. Under similar hydrodynamic conditions, the community structure of phytoplankton in the water body was determined by the dominant species in competition for nutrients.