果园有机肥深施机分层变量排肥控制系统设计与试验

果园不同深度的土壤养分不同，果树根系分层吸肥能力不同，有机肥分层变量深施可以解决传统施肥存在的养分分布不均和肥料利用率低等问题。针对有机肥分层变量深施的排肥控制问题，本文设计了排肥控制系统，可以根据用户设置的各层理论排肥量和作业速度，实时计算液压马达的理论转速，并采用PID算法控制比例流量阀开度，调节马达转速驱动螺旋输送器排肥，实现分层变量排肥。将AMESim中建立的液压系统模型与在Matlab/Simulink中建立的控制模型进行联合仿真，整定PID参数。液压马达转速调节性能试验中最大超调量为14r/min，达到稳定转速的时间最大为6s，控制性能较好，表明通过AMESim-Matlab/Simulink联合仿真，能够快速便捷地整定PID参数，结果准确可靠。排肥控制性能试验中排肥量相对误差最大6.20%，变异系数最大8.69%，排肥量准确性和均匀性均达到要求。设计的控制系统具有较好的性能，能为果园有机肥分层变量深施提供技术支撑。     

有机无机肥配施对冬春烤烟经济性状的影响

在云南梁河县对冬春烤烟开展有机肥和化肥合理配施试验,结果比对照增产62.7%;中上等烟比例增加3.6个百分点;净增产值提高72%。     

环保视阈下恩施州肥料利用问题及对策

指出了提高肥料利用率,减少肥料损失和对农业环境的污染是目前农业生产中急需解决的重要问题,针对恩施州有机肥用量不足、肥料投入结构不合理、肥料流失量较大、农业环境污染加重和边际效益下降等问题,提出了有机肥资源高效利用、采用新型科学施肥技术和减少环境污染的施肥技术等提高肥料利用率的建议。     

不同施肥处理对枳及柠檬容器苗生长的影响

研究9个不同施肥处理对枳及柠檬容器苗生长的影响。结果表明:不同施肥处理对枳容器苗的苗高、地径、分枝高度及嫁接后柠檬苗的发芽率、株高、茎粗、分枝数及生物量都存在显著差异;不同施肥处理对枳及柠檬容器苗综合表现最好的为T4(撒施柠檬专用肥1.6 g)处理,其次是T2(撒施尿素0.6 g)、T3(撒施柠檬专用肥0.8 g)处理,表现最差的是T8(浇施5%柠檬专用肥)和T7(浇施3%柠檬专用肥)处理。在一定施肥浓度范围内,施肥对嫁接后柠檬容器苗的生物量积累有明显促进作用。柠檬容器苗培育时建议采用在基质中撒施柠檬专用肥1.6 g。     

疣吻沙蚕胚胎发育观察及盐度对其孵化的影响

采用显微镜观察了疣吻沙蚕(Tylorrhynchus heterochaeta)胚胎发育不同时期特征,并依据疣吻沙蚕人工孵化经验设置6个盐度梯度组(A:0,B:5,C:10,D:13,E:15,F:20),每组3个平行,研究了盐度对疣吻沙蚕受精率和孵化率的影响。结果表明,疣吻沙蚕胚胎发育可分为受精卵、卵裂期、囊胚期、原肠期、前担轮幼虫期、后担轮幼虫期、膜内三刚节疣足幼虫期和三刚节疣足幼虫期8个时期;盐度对疣吻沙蚕孵化影响显著(P0.05),C组受精率和孵化率最高,与其他组存在显著差异(P0.05)。适宜受精的盐度范围为10~13,最适孵化的盐度为10。     

施氮对蜀恢498及其突变体株型和物质生产特性的影响

【目的】分析不同施氮量处理下水稻株型、物质生产以及产量的变化规律,为水稻新品种的选育和栽培管理提供参考。【方法】2015-2016年,以蜀恢498(R498)及其突变体sg1和sg2为材料,采用两因素裂区设计,其中施氮量为主因素(0,90,180 kg/hm~2以下简称为CK,N90,N180),水稻材料为副因素,分析了不同施氮处理下蜀恢498及其突变体节间长度、叶部特征、叶面积指数、高效叶面积率、粒叶比、干物质量、产量及其构成因素的变化。【结果】(1)施氮对R498及其突变体sg1和sg2上部N_1～N_5节间长度均有一定影响,其中N_1、N_2和N_3的节间长度均表现为R498sg1sg2,差异达到显著水平,N_4和N_5节间长度无明显变化规律。在同一节间下,低氮处理(N90)的节间长度与高氮处理(N180)的差异不显著。与CK相比,施氮增加了水稻叶片长度和宽度、单叶面积以及叶面积指数,降低了2016年高效叶面积率。(2)随着施氮量的增加,粒叶比呈降低趋势;3个材料中,sg1的粒叶比最大,比R498和sg2分别高14.97%和34.83%。(3)干物质量随施氮量的增加而增大,N90与N180处理间差异较小。2015-2016年,水稻的产量均表现为R498sg1sg2。R498、sg1和sg2产量均随施氮量的增加而增大。2015和2016年,R498、sg1和sg2 N90处理的产量比N180处理分别减少了14.96%,14.45%,23.77%和2.23%,6.25%,8.66%。有效穗数和千粒质量均表现为R498sg1sg2,而颖花数和着粒密度则表现为sg2sg1R498;施氮对有效穗数影响最大,N90与N180处理间差异总体达到显著水平。(4)2015和2016年,N90处理氮肥偏生产力处理显著高于N180处理。氮肥农学利用率表现为sg2sg1R498,氮肥偏生产力表现为R498sg1sg2。【结论】突变体sg1对氮响应较慢,在水稻育种中有很大的应用价值。在杂交品种选育中,可通过观测不同材料在不同供氮水平下的表现,从而选育出稳产增产的水稻新品种,更好地实现减氮稳产增效。     

Fertilization rate,motility, lipid peroxidation and pH changes after chilled storage of rainbow trout (Oncorhynchus mykiss) eggs and spermatozoa by a RMPI medium

The aim of this study was to evaluate the effects of Roswell Park Memorial Institute (RPMI) 1,640 medium on chilled storage of eggs and spermatozoa of rainbow trout (Oncorhynchus mykiss). After 3 days of storage, eggs in RPMI 1,640 media (pH 8.2, 9 and 10), Cortland medium and coelomic fluid were inseminated with fresh spermatozoa (Experiment 1). Eggs in RPMI 1,640 medium at pH 8.2 shown the lowest thiobarbituric acid‐reactive substances (TBARS, 0.053 ± 0.003 nmol/ml) and pH changes (from 8.20 ± 0.01 to 8.18 ± 0.01), the highest fertilization rate (82 ± 3%). Undiluted and diluted spermatozoa at ratios of 1:2 and 1:9 with RPMI 1,640 media (pH 8.2, 9 and 10) and Cortland medium were inseminated with fresh eggs (Experiment 2). Spermatozoa in RPMI 1,640 medium at pH 9 (1:9) caused the lowest TBARS content (0.037 ± 0.002 nmol/ml) and pH changes (from 9.00 ± 0.01 to 8.98 ± 0.01), the highest fertilization rate (77 ± 2%) and motility parameters. Based on Experiments 1 and 2, eggs and spermatozoa were stored for another 3 days in RPMI 1,640 medium at pH 8.2 and 9 (1:9) respectively (Experiment 3). Fertilization rate of storage eggs and spermatozoa in Experiment 3 was 79 ± 5%, showing successfully storage of rainbow trout gametes with the same medium.     

振捣提浆与侧深施肥技术模式对寒地水稻产量性状及肥水效率的影响

为解决北方寒地传统搅浆平地耕作模式造成稻田泡田灌溉水量大和肥料利用效率低等问题,于2018—2019年以稻田水整地环节振捣提浆机与侧深施肥机为材料,采用2种耕整地模式和2种施肥模式的正交试验设计：搅浆平地耕整地模式(WPF)、振捣提浆耕整地模式(VEP)、基肥撒施模式(CFA)和侧深施肥模式(SDF),分析振捣提浆+侧深施肥技术模式对泡田期灌水量、干物质积累量、产量指标、肥料利用率及经济效益的影响。结果表明：与常规搅浆平地耕整地+基肥撒施(WPF+CFA)相比,搅浆平地耕整地+侧深施肥(WPF+SDF)、振捣提浆耕整地+基肥撒施(VEP+CFA)和振捣提浆耕整地+侧深施肥(VEP+SDF)3种技术模式对水稻泡田灌溉量、产量性状、肥料利用效率和经济效益均产生显著的影响,以VEP+SDF增幅最大,WPF+SDF次之,VEP+CFA最小。与WPF+CFA相比,VEP+SDF模式能显著提高肥水效率,节约泡田灌溉水11.4%,减少肥料施用量10%,产量和经济效益分别提高7.3%和1628.7元/hm²。本研究表明,VEP+SDF模式显著改善肥水利用效率,提高植株产量和经济效益,是北方寒地水稻较为理想的机械化整地施肥技术模式。     

Variation in glomalin in soil profiles and its association with climatic conditions,shelterbelt characteristics,and soil properties in poplar shelterbelts of Northeast China

Glomalin-related soil protein(GRSP)sequesters large amounts of carbon and plays important roles in maintaining terrestrial soil ecosystem functions and ecological restoration;however,little is known about GRSP variation in 1-m soil profiles and its association with stand characteristics,soil properties,and climatic conditions,hindering GRSP-related degraded soil improvement and GRSP evaluation.In this study,we sampled soils from 1-m profiles from poplar(Populus spp.)shelterbelts in Northeast China.GRSP contents were 1.8–2.0 times higher in the upper 40 cm soil layers than at 40–100 cm.GRSP-related soil organic carbon(SOC)sequestration in deeper soil layers was*1.2 times higher than in surface layers.The amounts of GRSP-related nutrients were similar throughout the soil profile.A redundancy analysis showed that in both surface and deeper layers,soil properties(pH,electrical conductivity,water,SOC,and soil nutrients)explained the majority of the GRSP variation(59.5–84.2%);the second-most-important factor in GRSP regulation was climatic conditions(temperature,precipitation,and altitude),while specific shelterbelt characteristics had negligible effects(<5%).Soil depth and climate indirectly affected GRSP features via soil properties,as manifested by structural equation model analysis.Our findings demonstrate that GRSP is important for carbon storage in deep soils,regardless of shelterbelt characteristics.Future glomalin assessments should consider these vertical patterns and possible regulating mechanisms that are related to soil properties and climatic changes.