减氮配施有机肥对滴灌春小麦花后同化物转运和籽粒灌浆特性的影响

【目的】研究减氮条件下新疆滴灌小麦高产高效的调控途径,分析滴灌春小麦花后同化物转运和籽粒灌浆特性的调控效应,为新疆滴灌春小麦的高产优质栽培提供科学依据。【方法】设置不同减氮配施有机肥处理,采用裂区设计,氮素为主区,品种为副区;于2019年在田间滴灌条件下设置7种减氮配施有机肥水平(N_CK、N₅、N₁₀、N₁₅、N₂₀、N₂₅、N₀),比较分析不同减氮配施有机肥处理条件下,强筋小麦新春38号和中筋小麦新春49号的花后同化物转运及籽粒灌浆特性的变化。【结果】在灌浆期内,花后干物质(茎、叶)随灌浆期推进呈先升后降趋势,峰值出现在花后14 d,而穗干物质则呈逐渐增大的变化。随减氮配施有机肥程度增加,2个品种的花后干物质积累、花后干物质转移率、花后贡献率、粒重及灌浆各参数均呈现先增后减的趋势,在N₁₅处理下各指标均达到最优值,N₁₅>N₂₀>N₂₅>N₁₀>N₅>N_CK>N₀。2个品种的快速累积持续时间(t₂~t₁)、平均灌浆速率(V_mean)、最大灌浆速率(V_max)与粒重间均存在显著关系,且平均灌浆速率与粒重间的直接效应最大,2个品种的直接通径系数为1.034 7和0.957 3。在N₁₅处理下, V_mean相比其它处理分别增长了1.92%～30.58%(新春38号),1.02%～27.93%(新春49号)。【结论】在减氮配施有机肥处理下,以N₁₅处理(85%N+15%有机肥)的花后干物质积累量、花后转运率及贡献率最高,籽粒粒重最高,与之相关的灌浆各参数表现最优,即N₁₅处理为最优配比组合。     

Modulation of plant root traits by nitrogen and phosphate: transporters,long-distance signaling proteins and peptides,and potential artificial traps

As sessile organisms, plants rely on their roots for anchorage and uptake of water and nutrients. Plant root is an organ showing extensive morphological and metabolic plasticity in response to diverse environmental stimuli including nitrogen (N) and phosphorus (P) nutrition/stresses. N and P are two essential macronutrients serving as not only cell structural components but also local and systemic signals triggering root acclimatory responses. Here, we mainly focused on the current advances on root responses to N and P nutrition/stresses regarding transporters as well as long-distance mobile proteins and peptides, which largely represent local and systemic regulators, respectively. Moreover, we exemplified some of the potential pitfalls in experimental design, which has been routinely adopted for decades. These commonly accepted methods may help researchers gain fundamental mechanistic insights into plant intrinsic responses, yet the output might lack strong relevance to the real situation in the context of natural and agricultural ecosystems. On this basis, we further discuss the established—and yet to be validated—improvements in experimental design, aiming at interpreting the data obtained under laboratory conditions in a more practical view.     

不同施氮水平对柳枝稷光合特性及抗旱性的影响

为了探究宁夏银北盐碱地区柳枝稷高产优质高效栽培过程中最佳的施氮量及其对柳枝稷叶片光合特性及抗旱性的影响,本研究采用大田试验,以Cave-in-Rock品种柳枝稷为供试材料,设无氮添加(0 kg·hm-2,N0)、施低氮(60 kg·hm-2,N60)、中氮(120 kg·hm-2,N120)和高氮(240 kg·hm-2,N240)共4个施氮水平,分析比较了各生育时期内柳枝稷叶片光合特性、渗透调节物质及抗氧化酶活性的变化,同时采用隶属函数法综合评价了盐碱地柳枝稷的抗旱性.结果表明,随着不同施氮水平的增加,柳枝稷各生育时期内叶片叶绿素相对含量(SPAD)、净光合速率(Pn)、气孔导度(Gs)和细胞间隙CO2浓度(Ci)整体呈现先升后降的趋势,均在施中氮(N120)处理下达到峰值.与无氮添加(N0)处理相比,施低氮(N60)、中氮(N120)和高氮(N240)处理下柳枝稷叶片的SPAD值平均增加了4.73％、18.71％和8.86％,净光合速率(Pn)平均提高了5.55％、17.02％和12.41％,气孔导度(Gs)平均升高了7.87％、56.18％和39.33％,细胞间隙CO2浓度(Ci)平均增加了7.86％、30.71％和13.81％.柳枝稷叶片蒸腾速率(Tr)在高氮(N240)处理下达到最大值,叶片水分利用效率(WUE)随着不同施氮水平的增加而逐渐下降.隶属函数分析结果表明,施中氮(N120)处理下柳枝稷各抗旱指标隶属函数值的均值最大.因此,本试验条件下有利于提高柳枝稷叶片光合能力和抗旱性的适宜施氮水平为120 kg·hm-2.     

新型腐植酸有机肥对马铃薯茎基腐病的防效

马铃薯茎基腐病是影响马铃薯生产的重要病害,目前尚未有效的综合防控措施。试验的目的是通过新型腐植酸肥料与同等养分配方化肥的田间比较试验,探讨新型腐植酸有机肥对马铃薯茎基腐病预防效果。结果表明,5~15 g壤动FT/100 kg种薯配合腐植酸肥料对马铃薯生长发育安全,在出苗率、苗高、单株根数、最大根长、芽长分别优于配方化肥1.0~2.9个百分点、1.2~4.1 cm、1.1~5.2条、1.2~2.6 cm、0.3~1.1 cm;在单株薯重、平均单薯重、商品薯率、小区产量分别高于配方化肥66.7~394.4 g、4.6~12.1 g、4.3~11.4个百分点、12.23~83.46 kg/30.8m²;对主茎、匍匐茎、块茎基腐防效分别达78.29%~87.24%、75.62%~88.51%、72.05%~86.98%,增产效果达11.60%~79.12%。研究为开展农业技术防治马铃薯茎基腐病提供了新方法,对制定综合防治技术体系具有重要指导意义。     

不同氮素水平对重金属胁迫下紫茎泽兰生长及重金属吸收的影响

以紫茎泽兰为对象,采用水培法研究无氮、低氮、中氮、高氮4个氮素水平对Pb、Zn、Cu、Cd等4种重金属胁迫条件下紫茎泽兰生长和重金属吸收的影响。结果表明:低氮水平下,紫茎泽兰多数生长参数显著高于其他试验组;中氮水平下,紫茎泽兰POD、CAT、可溶性蛋白、可溶性糖、脯胺酸和叶绿素含量显著较高。低氮水平有利于紫茎泽兰根、茎和叶器官对Pb、Zn和Cd的吸收,试验组紫茎泽兰根器官中Pb、Zn和Cd累积量显著高于茎和叶。说明紫茎泽兰对重金属胁迫具有一定的抗逆性,低氮、中氮水平提高了紫茎泽兰对重金属的耐受性和吸收能力。可考虑将紫茎泽兰用于重金属污染的生态修复。     

花前氮亏缺对水稻叶片氮代谢酶活性的影响

以籼型杂交稻中浙优1号和籼粳型杂交稻甬优12为材料,试验分析了花前不同时期氮亏缺处理对水稻叶片氮代谢酶活性的影响。结果表明,花前氮亏缺导致植株上3叶氮浓度、NR、GS、GOGAT、GOT和GPT酶活性大幅下降,GDH活性显著增长,且各叶位对花前氮亏缺敏感度总体上表现为剑叶倒2叶倒3叶;破口期亏氮对籼型杂交稻中浙优1号上3叶氮同化酶活性的影响远小于减数分裂期处理,与之相比,籼粳杂交稻甬优12对破口期亏氮胁迫仍较敏感,表明中浙优1号植株氮代谢酶的亏氮敏感性由减数分裂期至破口期逐步下降,对土壤速效氮的需求同步降低,甬优12则对土壤供氮存在更高需求。     

土壤有机碳对沼渣或牛粪施用后温室气体排放潜力的影响—盆栽试验结果

A change in the European Union energy policy has markedly promoted the expansion of biogas production.Consequently,large amounts of nutrient-rich residues are being used as organic fertilizers.In this study,a pot experiment was conducted to simulate the high-risk situation of enhanced greenhouse gas (GHG) emissions following organic fertilizer application in energy maize cultivation.We hypothesized that cattle slurry application enhanced CO2 and N2O fluxes compared to biogas digestate because of the overall higher carbon (C) and nitrogen (N) input,and that higher levels of CO2 and N2O emissions could be expected by increasing soil organic C (SOC) and N contents.Biogas digestate and cattle slurry,at a rate of 150 kg NH4+-N ha-1,were incorporated into 3 soil types with low,medium,and high SOC contents (Cambisol,Mollic Gleysol,and Sapric Histosol,termed Clow,Cmedium,and Chigh,respectively).The GHG exchange (CO2,CH4,and N2O) was measured on 5 replicates over a period of 22 d using the closed chamber technique.The application of cattle slurry resulted in significantly higher CO2 and N2O fluxes compared to the application of biogas digestate.No differences were observed in CH4 exchange,which was close to zero for all treatments.Significantly higher CO2 emissions were observed in Chigh compared to the other two soil types,whereas the highest N2O emissions were observed in Cmedium.Thus,the results demonstrate the importance of soil type-adapted fertilization with respect to changing soil physical and environmental conditions.     

Dynamics of Bt cotton Cry1Ac protein content under an alternating high temperature regime and effects on nitrogen metabolism

This study was conducted to investigate the effects of alternating high temperature on Cry1Ac protein content on Bt cotton cultivars Sikang 1(SK-1,a conventional cultivar)and Sikang 3(SK-3,a hybrid cultivar).In 2011 and 2012,cotton plants were subjected to high temperature treatments ranging from 32 to 40℃ in climate chambers to investigate the effects of high temperature on boll shell insecticidal protein expression.The experiments showed that significant decline of the boll shell insecticidal protein was detected at temperatures higher than 38℃ after 24 h.Based on the results,the cotton plants were treated with the threshold temperature of 38℃ from 6:00 a.m.to 6:00 p.m.followed by a normal temperature of 27℃ during the remaining night hours(DH/NN)in 2012 and 2013.These treatments were conducted at peak boll growth stage for both cultivars in study periods of 0,4,7,and 10 d.Temperature treatment of 32℃ from 6:00 a.m.to 6:00 p.m.and 27℃ in the remaining hours was set as control.The results showed that,compared with the control,after the DH/NN stress treatment applied for 7 d,the boll shell Cry1Ac protein content level was significantly decreased by 19.1 and 17.5% for SK-1 and by 15.3 and 13.7% for SK-3 in 2012 and 2013,respectively.Further analysis of nitrogen metabolic physiology under DH/NN showed that the soluble protein content and the glutamic pyruvic transaminase(GPT)activities decreased slightly after 4 d,and then decreased sharply after 7 d.The free amino acid content and the protease content increased sharply after 7 d.The changes in SK-1 were greater than those in SK-3.These results suggest that under DH/NN stress,boll shell Cry1Ac protein content decline was delayed.Reduced protein synthesis and increased protein degradation in the boll shell decreased protein content,including Bt protein,which may reduce resistance to the cotton bollworm.