不同有机肥对甘薯产量、品质及土壤肥力的影响

为探究施用不同有机肥对甘薯产量、品质以及土壤肥力的影响。以甘薯品种黔薯6号为试材,设置5种不同有机肥处理,以不施肥为对照。结果表明:施用有机肥能有效促进甘薯藤蔓生长及块根的膨大,其中产量以上蚕力有机肥(T4)最高,较对照增加了19.9%。不同有机肥对甘薯营养品质的影响差异较大,而对干物质的累积不明显。另外,种植甘薯显著降低了土壤的养分含量,而施用不同有机肥可以补充甘薯对养分的部分需求,但对土壤pH的影响不明显。施肥均显著增加了土壤微生物量碳(MBC)和微生物量氮(MBN)的含量。同时显著增加了土壤脲酶(URE)、酸性磷酸酶(ACP)、N-乙酰葡萄糖苷酶(NAG)和纤维二糖酶(CBH)活性,明显降低了硝酸还原酶(NR)和β-葡萄糖苷酶(BG)活性,而对其他酶活性影响有升有降。相关性分析表明,有机肥中不同成分对甘薯块根产量和品质的影响差异较大,肥料的pH及有机质投入量主要影响块根的品质,而纯氮投入量则与块根产量和品质均密切相关。土壤理化性质主要受有机肥的pH、有机质及纯氮投入量的影响,而与纯磷和纯钾的投入量相关性较小;同时,有机肥与土壤MBC、土壤URE、ACP、NR、PPO和LAP的相关性强于土壤微生物量氮(MBN)、N-乙酰葡萄糖苷酶(NAG)、纤维二糖酶(CBH)和多酚氧化酶(PPO)。综上,不同有机肥在一定程度上促进了甘薯的生长,提高了甘薯产量,增加了土壤的养分含量,改变了土壤的微生物环境,因此可根据指标的相关性分析结果为甘薯生产提供参考依据。

基于主成分分析和隶属函数法对不同马铃薯酶促褐变评价

褐变是影响马铃薯加工业快速发展的一个限制因素,褐变评价对抗褐变马铃薯品种选育及马铃薯鲜切加工发展具有重要意义。以45个马铃薯品种作为试验材料,对10个酶促褐变相关指标进行测定,再结合相关性分析、主成分分析、隶属函数和聚类分析进行综合评价。结果表明,可以通过鲜薯切片0 h和6 h亮度值、褐变强度(BD)初始值和多酚氧化酶(PPO)活性4个指标进行马铃薯酶促褐变的鉴定评价;根据抗酶促褐变能力将45个马铃薯品种分为5种类型,其中高抗酶促褐变材料5份、抗酶促褐变材料9份、中度酶促褐变材料18份、易酶促褐变材料9份和极易酶促褐变材料4份。

双温区脉管制冷机的制冷量主动调控策略

针对空间探测中须在双温区提供不同制冷量的新需求,提出利用声功回收主动调相器对双温区制冷量进行主动调控的方法.研究分析高温区调相器活塞运动特性对双温区冷指阻抗的影响,得到调相器对双温区冷指声功率分配及回热器效率的影响特性,实现80 K和40 K双温区制冷量主动调控.数值计算结果显示,调相器相位差对高温区制冷量影响较大,调相器振幅和相位差对低温区制冷量均有明显的影响.实验结果表明,采用基于主动控制调相器活塞运动特性的调节策略,80 K温区制冷量可以在9.2~23.7 W内主动调节,40 K温区制冷量可以在3.2~4.5 W内主动调节.

基于无人机可见光遥感的马铃薯植株氮素累积估测与验证

为探究无人机可见光遥感技术快速、无损监测马铃薯氮素营养的可能性,于2020—2022年在贵州省威宁县开展马铃薯不同氮肥梯度大田试验,设置7个氮素水平(0、60、120、180、240、300和360 kg·hm^(-2)),利用无人机搭载可见光传感器获取不同年份马铃薯块茎形成期冠层RGB高清影像,并同步测定马铃薯地上部氮素含量、生物量和氮素累积量等氮素营养指标,以2020—2021年数据作为建模数据,以2022年数据作为验证数据,建立氮素营养指标估测方程模型并绘制实测值和预测值的1∶1线性关系图。结果表明,与其他冠层光谱参数相比,红光和蓝光比值(R/B)能更好地表征马铃薯氮素营养指标,其与地上部氮素含量、生物量、氮素累积量的相关性均达到极显著水平(P<0.01),其中二次函数模型相关性均优于其他函数模型。利用2022年相同独立试验验证该模型准确性,地上部氮素含量、生物量、氮素累积量实测值与预测值的决定系数(R2)分别为0.949、0.977、0.977,均方根误差(RMSE)和相对误差(MRE)分别为0.368、0.149、0.073和10.42%、6.05%、8.85%,表明模型预测精度较好。综上,无人机可见光遥感可用于马铃薯氮素营养的评估预测,块茎形成期最佳预测参数为R/B,二次函数模型为最佳预测模型。本研究为马铃薯氮素营养无损评估预测提供了理论与实践依据。

基于SSR标记分析31份甘薯品种(系)的遗传多样性

为了解不同甘薯资源材料之间的亲缘关系,以收集保存的31份甘薯品种(系)为研究对象,采用SSR标记分析不同材料之间的遗传多样性。结果表明,基于筛选获得的多态性较好的21对SSR标记,共检测到405个多态性等位位点,平均每对引物等位位点数为19.3个。31份甘薯材料遗传相似性系数在0.2829~0.9758之间,平均值为0.430419,说明遗传多样性丰富。聚类分析表明,在遗传距离为0.638时,可将31份甘薯品种(系)分为四个类群。

CNKSR2 interactome analysis indicates its association with the centrosome/microtubule system

The protein connector enhancer of kinase suppressor of Ras 2(CNKSR2),present in both the postsynaptic density and cytoplasm of neurons,is a scaffolding protein with several protein-binding domains.Variants of the CNKSR2 gene have been implicated in neurodevelopmental disorders,particularly intellectual disability,although the precise mechanism involved has not yet been fully understood.Research has demonstrated that CNKSR2 plays a role in facilitating the localization of postsynaptic density protein complexes to the membrane,thereby influencing synaptic signaling and the morphogenesis of dendritic spines.However,the function of CNKSR2 in the cytoplasm remains to be elucidated.In this study,we used immunoprecipitation and high-resolution liquid chromatography-mass spectrometry to identify the interactors of CNKSR2.Through a combination of bioinformatic analysis and cytological experiments,we found that the CNKSR2 interactors were significantly enriched in the proteome of the centrosome.We also showed that CNKSR2 interacted with the microtubule protein DYNC1H1 and with the centrosome marker CEP290.Subsequent colocalization analysis confirmed the centrosomal localization of CNKSR2.When we downregulated CNKSR2 expression in mouse neuroblastoma cells(Neuro 2A),we observed significant changes in the expression of numerous centrosomal genes.This manipulation also affected centrosome-related functions,including cell size and shape,cell proliferation,and motility.Furthermore,we found that CNKSR2 interactors were highly enriched in de novo variants associated with intellectual disability and autism spectrum disorder.Our findings establish a connection between CNKSR2 and the centrosome,and offer new insights into the underlying mechanisms of neurodevelopmental disorders.

In situ formed Mg(BH_(4))_(2) for improving hydrolysis properties of MgH_(2)

The hydrolysis of MgH_(2) delivers high hydrogen capacity(15.2 wt%),which is very attractive for real-time hydrogen supply.However,the formation of a surface passivation Mg(OH)_(2) layer and the large excess of H_(2)O required to ensure complete hydrolysis are two key challenges for the MgH_(2) hydrolysis systems.Now,a low-cost method is reported to synthesize MgH_(2)@Mg(BH_(4))_(2) composite via ball-milling MgH_(2) with cheap and widely available B_(2)O_(3)(or B(OH)_(3)).By adding small amounts of B_(2)O_(3),the in-situ formed Mg(BH_(4))_(2) could significantly promote the hydrolysis of MgH_(2).In particular,the MgH_(2)–10 wt%B_(2)O_(3) composite releases 1330.7 mL·g^(−1) H_(2)(close to 80%theoretical hydrogen generation H_(2))in H_(2)O and 1520.4 mL·g^(−1) H_(2)(about 95%)in 0.5 M MgCl_(2) in 60 min at 26℃ with hydrolysis rate of 736.9 mL·g^(−1)·min^(−1) and 960.9 mL·g^(−1)·min^(−1) H_(2) during the first minute of the hydrolysis,respectively.In addition,the MgCl_(2) solution allows repeated use by filtering and exhibits high cycle stability(20 cycles),therefore leading to much reduced capacity loss caused by the excess H_(2)O.We show that by introducing B_(2)O_(3) and recycling the 0.5 M MgCl_(2) solution,the system hydrogen capacity can approach 5.9 wt%,providing a promising hydrogen generation scheme to supply hydrogen to the fuel cells.

Rational Design and Construction of a CdS QDs/lnVO_(4) Atomic-Layer(110)/(110)Facet S-Scheme Heterojunction for Highly Efficient Photocatalytic Degradation of C_(2)H_(4)

Exploring high efficiency S-scheme heterojunction photocatalysts with strong redox ability for removing volatile organic compounds from the air is of great interest and importance.However,how to predict and regulate the transport of photogenerated carriers in heterojunctions is a great challenge.Here,density functional theory calculations were first used to successfully predict the formation of a CdS quantum dots/InVO_(4)atomic-layer(110)/(110)facet S-scheme heterojunction.Subsequently,a CdS quantum dots/InVO_(4)atomic-layer was synthesized by in-situ loading of CdS quantum dots with(110)facets onto the(110)facets of InVO_(4)atomic-layer.As a result of the deliberately constructed built-in electric field between the adjoining facets,we obtain a remarkably enhanced photocatalytic degradation rate for ethylene.This rate is 13.8 times that of pure CdS and 13.2 times that of pure InVO_(4).In-situ irradiated X-ray photoelectron spectroscopy,photoluminescence and time-resolved photoluminescence measurements were carried out.These experiments validate that the built-in electric field enhanced the dissociation of photoexcited excitons and the separation of free charge carriers,and results in the formation of S-scheme charge transfer pathways.The reaction mechanism of the photocatalytic C_(2)H_(4)oxidation is investigated by in-situ electron paramagnetic resonance.This work provides a mechanistic insight into the construction and optimization of semiconductor heterojunction photocatalysts for application to environmental remediation.

Structural and Ferroelectric Transition in Few-Layer HfO_(2) Films by First Principles Calculations

The discovery of ferroelectricity in HfO_(2)-based materials with high dielectric constant has inspired tremendous research interest for next-generation electronic devices.Importantly,films structure and strain are key factors in exploration of ferroelectricity in fluorite-type oxide HfO_(2) films.Here we investigate the structures and straininduced ferroelectric transition in different phases of few-layer HfO_(2) films(layer number𝑁=1–5).It is found that HfO_(2) films for all phases are more stable with increasing films thickness.Among them,the Pmn2_(1)(110)-oriented film is most stable,and the films of𝑁=4,5 occur with a𝑃21 ferroelectric transition under tensile strain,resulting in polarization about 11.8μC/cm^(2) along in-plane𝑎-axis.The ferroelectric transition is caused by the strain,which induces the displacement of Hf and O atoms on the surface to non-centrosymmetric positions away from the original paraelectric positions,accompanied by the change of surface Hf–O bond lengths.More importantly,three new stable HfO_(2)2D structures are discovered,together with analyses of computed electronic structures,mechanical,and dielectric properties.This work provides guidance for theoretical and experimental study of the new structures and strain-tuned ferroelectricity in freestanding HfO_(2) films.

耐低温糖化马铃薯资源筛选与评价

通过研究马铃薯低温糖化相关基因StInvInh2、StvacINV的相对表达量、低温糖化生理生化指标、炸片色泽亨特系数,综合评价不同马铃薯材料的抗低温糖化能力。结果表明,马铃薯在4℃低温贮藏30 d后,StInvInh2相对表达量与酸性转化酶活性、还原糖含量均呈极显著正相关;块茎中的还原糖含量、酸性转化酶活性与炸片色泽亨特系数L^(*)、a^(*)、b^(*)间均呈极显著相关,StInvInh2相对表达量与炸片色泽亨特系数L^(*)、a^(*)均存在极显著相关性,而StvacINV相对表达量与炸片色泽亨特系数L^(*)、a^(*)、b^(*)相关性不明显。马铃薯低温贮藏后遗传多样性丰富,其中以还原糖含量、酸性转化酶活性、StInvInh2相对表达量、亨特系数a^(*)这4个指标变异系数较大,含丰富的遗传信息,而主成分分析中前5个特征向量分别为还原糖含量、StvacINV相对表达量、亨特系数b^(*)、蔗糖含量、亨特系数a^(*),可作为马铃薯资源低温贮藏后差异分析的主要因子。另外,对47份资源的聚类分析结果表明,第Ⅲ类共16份马铃薯资源的耐低温糖化能力明显优于其他4类,包括优于目前油炸加工专用型马铃薯品种大西洋、snodon,因此可作为下一步油炸加工型马铃薯品种的更新和品种储备。

用于氧还原反应的双原子钴-铁催化剂

金属-空气电池因其高效率和便携性受到广泛关注.然而,氧还原反应(ORR)的高能垒和缓慢的动力学导致其输出功率低.尽管贵金属铂基材料具有较高的ORR活性,但其在工业上的大规模应用受到高成本的制约.因此,迫切需要以储量丰富的非贵金属为原料,开发具有低成本、高性能和耐用性的催化剂.近年来,单原子过渡金属与氮共掺杂碳材料(M-N-C)成为替代贵金属催化剂的理想材料.理论模拟和实验结果均表明,单原子Fe/Co-N-C催化剂具有良好的ORR活性,其中FeN_(4)和CoN_(4)构型被认为是主要活性位点.此外,含有相邻金属位点的双金属单原子催化剂具有加速ORR动力学的巨大潜力.通过对ORR中间体的桥式-顺式吸附,双金属位点可以促进O-O键的裂解,从而提高催化活性.除固有活性外,双金属位点可减少ORR过程中含氧中间体对M-N键的攻击,提高M-N-C对ORR的耐久性和工业应用潜力.因此,近年来,研究者开始探索双金属单原子催化剂的合成和电催化性能,发现Fe-Co, Fe-Mn, Fe-Cu, Co-Zn和Co-Pt双位点可以有效催化ORR.为进一步提高ORR活性,需要合理调节双原子结构,并引入更多的双金属位点.本文在氮掺杂石墨烯纳米片上构建了一种含FeN_(3)-CoN_(3)位点的新型双原子催化剂(CoFe-NG),该催化剂具有较好的ORR催化活性,半波电位为0.917 V, Tafel斜率为46 mV dec^(-1),远远优于单原子Fe-NG、单原子Co-NG和Pt/C催化剂.Koutecky-Levich曲线和H_(2)O_(2)产率揭示了CoFe-NG具有高效的四电子ORR过程,不仅表现出高电流密度,而且对氧还原为OH-(而不是过氧化氢)更具选择性.计时安培测试结果表明, CoFe-NG对甲醇和一氧化碳中毒具有较高的耐受性.KSCN中毒实验结果表明, SCN^(-)离子与Fe和Co位点发生强配位作用并使活性位点中毒.以CoFe-NG为空气电极组装的锌-空气电池,开路电压为1.47 V,峰值功率密度高达230 mW cm^(-2),具有良好的充放电循环稳定性,可以为一个小灯泡供电,并且在5 mA cm^(-2)条件下持续充放电250 h,输出电压几乎不变.理论计算表明,掺氮石墨烯上的FeN_(3)-CoN_(3)位点比FeN_(4)和CoN_(4)位点具有更低的ORR能垒, FeN_(3)-CoN_(3)位点上的速控步是^(*)OH中间体向H_(2)O的转化,与单位点FeN_(4)和CoN_(4)不同.综上,本文为可控合成高性能双金属单原子催化剂及进一步深入分析其电催化氧还原反应机理提供参考.

用于空间BIB探测器的0.3 W@4.2 K大冷量轻量化低温系统

大阵列BIB探测器由于其高量子效率和低暗电流而成为广泛的研究对象,特别是在空间应用方向。如2021年发射的詹姆斯韦伯太空望远镜,它已经进行了许多重要的天文观测。一个稳定、高效、轻量化的液氦温区低温系统对BIB探测器的运行至关重要。氦节流制冷机可取代传统的大容积液氦杜瓦,能满足空间液氦温区的制冷要求。为了同时提高4.2 K的制冷量并减轻重量,提出了一种0.3 W@4.2 K的大冷量轻量化的4.2K低温制冷系统。并且在现有0.1 W@4.1 K制冷量的低温系统上进行实验,验证了该系统的设计方法。在不同的冷却温度区采用不同的冷却方法,以实现冷却的高效性和轻便性。开发了一个新的集成斯特林制冷机,在80 K时提供高效的一级预冷,制冷量为15 W,重量仅为4.5 kg;二级预冷采用主动活塞调相的15 K脉管制冷机,制冷量为0.9 W。此多级低温制冷系统通过耦合氦气JT循环,可以在4.2 K时提供0.3 W的制冷量,输入功低于1.8 kW。此系统将为正在快速发展的红外天文观测所需的空间BIB探测器提供保障。

宏微空间机械臂运动控制方法综述

由于单一的机械臂不能满足日益增长的空间任务需求,为了提升机械臂的综合性能如快速响应、高精度和大负载,世界各航天大国开展了宏微机械臂的研制工作。综述了国际空间站和中国空间站上宏微机械臂的发展现状,分别从分时独立控制和协调控制两种操作模式下对宏微机械臂系统的运动控制进行了归纳总结。当宏微机械臂采用分时独立的控制模式时,可将其等效为柔性基座机械臂,并从反作用最优控制、主动阻尼控制和末端轨迹跟踪控制三方面对柔性基座机械臂的控制算法进行了分析研究,为中国空间组合机械臂的在轨操作提供了借鉴意义。最后,对空间宏微机械臂的动力学建模和运动控制进行了展望。

柔性基座冗余机械臂的最优反作用控制

针对柔性基座冗余机械臂的末端轨迹跟踪问题,提出一种反作用最优控制方法,该算法将轨迹跟踪视为高优先级任务,而反作用优化控制在高优先级任务零空间内进行。由于冗余机械臂的自运动能在不影响末端运动的前提下改变关节运动,利用冗余机械臂的自运动消除振动系统中的低阶模态力,使机械臂在完成轨迹跟踪的同时激起的弹性振动大幅减小,从而提高了系统的稳定性。以平面3自由度柔性基座机械臂和空间7自由度柔性基座机械臂为例进行数值仿真,证实了方法的有效性。

Transformer-Based Macroscopic Regulation for High-Speed Railway Timetable Rescheduling

Unexpected delays in train operations can cause a cascade of negative consequences in a high-speed railway system.In such cases,train timetables need to be rescheduled.However,timely and efficient train timetable rescheduling is still a challenging problem due to its modeling difficulties and low optimization efficiency.This paper presents a Transformer-based macroscopic regulation approach which consists of two stages including Transformer-based modeling and policy-based decisionmaking.Firstly,the relationship between various train schedules and operations is described by creating a macroscopic model with the Transformer,providing the better understanding of overall operation in the high-speed railway system.Then,a policy-based approach is used to solve a continuous decision problem after macro-modeling for fast convergence.Extensive experiments on various delay scenarios are conducted.The results demonstrate the effectiveness of the proposed method in comparison to other popular methods.

核心稳定性训练对散打运动员鞭腿连击能力的影响

本研究采用文献资料,实验法、数理统计法,进行为期四周的核心稳定性力量训练,散打运动员的鞭腿连击能力有显著性提高,分析和探讨得到以下结论:鞭腿作为散打项目重要的腿法技术之一,掌握鞭腿技术动力链肌群的解剖学、生理学、生物力学特点,有助于以后训练中鞭腿动作协调和发挥力点的最大化。通过核心稳定性力量训练,散打鞭腿连击能力得到提高,核心区力量加强,柔韧性提高。以核心区腰--髋关节--骨盆肌群的稳定性训练和周围小肌肉群力量的加强,对于鞭腿支撑腿的稳定性,鞭打腿力的传递和击打目标的准确性得到显著提高。通过加强核心肌群力量的稳定性的训练,有助于防止散打项目中常出现的伤痛病症和运动损伤,同时对于康复陈旧性损伤具有良好的效果。

5种益生菌对大鼠肠道感染产肠毒素大肠杆菌的预防效果

本试验旨在研究5种益生菌对大鼠肠道感染产肠毒素大肠杆菌(ETEC)的预防效果,以筛选出对ETEC产生的不良影响具有较好预防效果的益生菌株。将80只3周龄无特定病原体(SPF)级SD雌性健康大鼠随机分成8组,每组10个重复,每个重复1只大鼠。空白对照组(CK组)和阴性对照组(NC组)正常饮水,阳性对照组(AC组)在饮水中添加硫酸黏菌素(20 mg/L),试验1组(EG-1组)、试验2组(EG-2组)、试验3组(EG-3组)、试验4组(EG-4组)和试验5组(EG-5组)分别在饮水中添加唾液乳杆菌E33、贝莱斯芽孢杆菌F5001、戊糖片球菌9601、乳酸片球菌11403和植物乳杆菌B6401新鲜菌液(1×10^(7) CFU/mL);试验最后5 d,除CK组外,其他各组每只大鼠每天灌胃1 mL的ETEC菌液(1×10^(10) CFU/mL)进行攻毒,建立腹泻模型。预试期7 d,正试期20 d。结果表明:1)CK、AC及EG-4组大鼠存活率均为100%。2)EG-3和EG-1组平均日增重明显高于CK组,EG-3和EG-1组料重比明显低于CK组。3)NC组肝脏指数显著低于EG-4和EG-5组(P<0.05)。4)CK组血液白细胞和淋巴细胞数量极显著高于其他各组(P<0.01)。5)EG-4组血清超氧化物歧化酶(SOD)活性和总抗氧化能力(T-AOC)显著高于NC组(P<0.05),血清免疫球蛋白G(IgG)含量显著低于NC组(P<0.05)。6)EG-1组血清白细胞介素-4(IL-4)含量显著低于CK、NC、EG-2及EG-5组(P<0.05)。7)EG-1、EG-2、EG-3、EG-4和EG-5肝脏谷丙转氨酶(ALT)活性极显著高于CK组(P<0.01),EG-4组大鼠肝脏ALT活性显著高于AC组(P<0.05)。由此可见,唾液乳杆菌E33、贝莱斯芽孢杆菌F5001、戊糖片球菌9601、乳酸片球菌11403和植物乳杆菌B6401的添加对ETEC感染对大鼠造成的不良影响均具有一定的预防效果,其中乳酸片球菌11403的预防效果最好。

空间站宏微机械臂动力学建模与零反作用控制

为满足空间站宏微机械臂级联在一起运动的任务需求,文章提出一种简化的动力学建模方法。首先利用雅克比矩阵将柔性关节宏机械臂等效为柔性基座,根据柔性基座、刚性微机械臂以及两者之间的耦合作用推导出柔性基座机械臂动力学模型。基于机械臂系统的动力学冗余特性,采用零反作用运动控制法使柔性基座与微机械臂之间运动解耦。文中数学模型的仿真结果与商业软件一致,表明了柔性基座机械臂模型的正确性。另外,将零反作用轨迹跟踪控制法成功应用于该模型,使得微机械臂末端在跟踪期望轨迹的同时完全不会激起基座的弹性变形。

Adjusting amplitude of the stored optical solitons by inter-dot tunneling coupling in triple quantum dot molecules

We study the propagation properties of a probe field in an aligned asymmetric triple quantum dot molecule with both sides inter-dot tunneling coupling effect. It is shown that the probe field can form optical soliton due to the destructive quantum interference induced by the quantum inter-dot tunneling coupling effect. Interestingly, these optical solitons can be stored and retrieved by adjusting single or double inter-dot tunneling coupling effect, different from that light memory in the ultra-cold atom system. Furthermore, we also find that the amplitude of the stored optical soliton can be adjusted by the strength of the single or double inter-dot tunneling coupling. It is possible to improve the stability and the fidelity of the optical information in the process of the storage and retrieval in semiconductor quantum dots devices.

氮钾运筹对高寒地区马铃薯产量、养分吸收及利用的影响

利用田间试验探讨氮钾配施对高寒马铃薯产量、养分吸收动态及利用的影响,为贵州高寒马铃薯高产的科学推荐施肥提供理论基础。2018年在贵州省毕节市开展田间试验,控制磷肥的施用量一致,设置不同的氮钾运筹,研究不同氮钾运筹下马铃薯的产量、经济效益、养分吸收动态及利用。不同养分处理马铃薯产量不同,T8处理(N3P2K2,N∶P2O5∶K2O=270∶150∶240 kg/hm^2)马铃薯产量、产值和经济效益分别为30 145 kg/hm^2、33 159.5元/hm^2和29 823.5元/hm^2,高于其他处理1 294~12 967 kg/hm^2、1 423.3~14 263.2元/hm^2和2 068.3~10 927.2元/hm^2;不同处理马铃薯薯块生物量随生育期呈持续增加的趋势,T8处理为最大,总生物量与地上部生物量相似,呈现先增加后降低的趋势,在淀粉积累期达到最大值,T8处理总生物量为6 619 kg/hm^2,高于其他处理;相同处理不同部位马铃薯养分累积量变化不同,相同部位不同处理的马铃薯养分累积量变化相似,相同部位的马铃薯氮素和钾素累积量变化趋势相似,其中地上部氮素和钾素累积量呈现先升高后缓慢降低趋势,薯块氮素和钾素累积量随生育期呈现持续上升的趋势,马铃薯氮素和钾素累积总量与地上部养分累积量相似,呈现先升高后缓慢降低趋势;不同处理的氮钾养分利用效率不同,氮肥偏生产力和农学效率以T4处理(N1P2K2,N∶P2O5∶K2O=90∶150∶240kg/hm^2)和T8处理(N3P2K2,N∶P2O5∶K2O=270∶150∶240 kg/hm^2)最大,钾肥偏生产力和农学效率以T5处理(N2P2K1,N∶P2O5∶K2O=180∶150∶120 kg/hm^2)和T7处理(N2P2K3,N∶P2O5∶K2O=180∶150∶360 kg/hm^2)最大。综合产量、经济效益及养分吸收,T8处理(N3P2K2,N∶P2O5∶K2O=270∶150∶240 kg/hm^2)可作为基于本试验条件下较适宜的氮钾运筹,在实际生产中应注重氮钾合理运筹,促进高寒地区马铃薯产业的可持续发展。