大豆玉米持续轮作免耕对土壤养分及作物产量的影响

为了解决免耕减产、秸秆焚烧污染环境、种植结构不合理等问题,试验通过设置免耕和传统垄作田间对比试验,研究了2013年到2016年连续4年大豆玉米轮作免耕对土壤养分及作物产量的影响,研究结果可为免耕技术推广及黑龙江省农业持续发展提供理论参考和技术保障。试验结果表明,大豆玉米持续轮作免耕条件下0-7.5 cm、7.5-15 cm、15-22.5 cm、22.5-30 cm土壤养分指标全氮、全磷、全钾、碱解氮、速效磷、速效钾、有机质含量均高于垄作处理,且耕作对全氮、全磷、碱解氮、速效磷、速效钾、有机质含量影响显著；耕作对土壤容重影响显著,免耕处理各层土壤容重高于垄作处理,免耕处理15-22.5 cm与22.5-30 cm土层之间容重差异不显著,而垄作处理各层土壤容重差异显著；与垄作相比,2013年和2015年免耕大豆增产率分别为16.37%和25.33%,2014年和2016年免耕玉米产量增产率分别为0.88%和9.50%。大豆玉米轮作免耕较垄作平均节约成本640元/hm2,平均增收2220元/hm2。     

培肥措施对复垦土壤微生物碳氮代谢功能多样性的影响

土壤复垦是矿区生态环境恢复和耕地总量平衡及质量提升的根本要求。本研究依托山西襄垣采煤塌陷区复垦定位试验基地，采用Biolog-ECO方法和荧光定量PCR技术，研究了不施肥（CK）、单施化肥（CF）、单施有机肥（M）和有机无机培肥（MCF）4种培肥措施下复垦4年和8年土壤微生物碳代谢功能多样性及氮代谢功能基因丰度的变化特征。结果表明，随复垦年限增加，单施有机肥较其他处理可显著提高复垦土壤微生物的总碳源利用能力；不同处理复垦土壤微生物碳源相对利用率总体表现为氨基酸类>糖类>聚合物类>羧酸类>双亲化合物类>胺类，其中单施有机肥更大程度上提高了羧酸类、氨基酸类和胺类碳源的利用率；复垦年限和培肥措施没有改变复垦土壤微生物优势度指数，但有机无机配施较其他处理可显著提高香浓指数（H′）和Pielou均匀度指数；不同处理复垦土壤氮转化功能基因丰度总体表现为amoA（AOA）> amoA（AOB）>nisS、nirK> nifH，5种功能基因丰度均为以有机无机培肥处理最高，且随复垦时间增加而增加；复垦土壤有机质含量与nirS、nirK、nifH基因丰度以及AWCD值存在显著相关性，相关系数在0.707～0.807，同时5种氮转化功能基因丰度均与玉米产量存在显著或极显著的相关性，相关系数在0.824～0.949。综上所述，单施有机肥可提高土壤有机质含量，进而增强了复垦土壤碳代谢强度，有机无机培肥则更有利于复垦土壤碳氮代谢功能多样性的提升，并促进作物产量形成。     

基于环境变量的中国土壤有机碳空间分布特征

研究中国土壤有机碳(Soil Organic Carbon,SOC)的空间分布特征对SOC储量估算以及农业生产管理具有重要意义。以全国第二次土壤普查2473个土壤典型剖面的表层(A层)SOC含量为研究对象,探寻地形、气候和植被等环境因素对SOC空间异质性分布的影响;以普通克里格法为对照,利用地理加权回归、地理加权回归克里格、多元线性回归和回归克里格模型建立SOC空间预测模型;并分别绘制了中国SOC的空间分布预测图。结果表明:(1)SOC含量与年均降水量、年均温、归一化植被指数、高程以及地形粗糙指数呈极显著相关关系;(2)平均绝对估计误差、均方根误差、平均相对误差和皮尔逊相关系数等模型验证指标表明地理加权回归的预测精度优于其他模型,可以更好地绘制SOC在大尺度上的空间分布特征;(3)较高SOC含量主要分布在研究区东北部、西南部以及东南部,而西北部SOC含量普遍偏低。本文以期从大尺度上探讨土壤属性与环境变量之间的相关关系,为全国土壤属性的空间制图提供一定的解决方案和思路。     

耕作措施对坡耕地红壤地表径流氮磷流失的影响

云南山地面积约占全省土地总面积的94%,特殊的地形特征,极易引发坡面土壤侵蚀和养分流失,严重影响了农业可持续生产。采取有效的农艺措施来减少坡耕地土壤养分流失是十分有必要的。为此,通过4年定位试验对顺坡(2组处理)、横坡(2组处理)2种耕作方向的复合农艺措施处理进行研究。结果表明:云南坡地红壤的径流时间主要集中在6—9月,且产流雨量占年降雨量的65.62%～75.82%。产流雨量与年降雨量呈现一致趋势。径流量和产流雨量呈线性关系(R_(NVF)~2=0.597 7,R_(OVF)~2=0.415 1,R_(OHF)~2=0.378 2,R_(OHFR)~2=0.335 5),其相关性大小顺序为顺坡处理横坡处理,不施肥处理施肥处理,覆膜处理揭膜处理(P0.01)。大雨(25～49.9 mm)和暴雨(≥50 mm)造成了年度大部分径流和养分的流失。横坡垄作组处理产生地表径流(177.13±28.87)～(182.28±33.75) mm,径流中总氮流失量(7.66±2.51)～(7.85±1.92) kg/hm~2,总磷流失量为(0.91±0.26)～(1.09±0.27) kg/hm~2,与顺坡垄作OVF(常规处理)相比径流和养分极显著减少了49.57%～52.13%,33.16%～53.88%(P0.01)。不同耕作措施下,复合耕作模式(优化施肥+横坡垄作+旺长期揭膜)拦截径流和养分流失的效果最好。RDA分析结果发现,与降雨量相比较,径流量是影响氮磷养分变化的主要环境因子(P0.01)。径流量与氮养分(NH_4~+-N除外)流失量的相关性高于与磷的相关性,表明氮比磷更容易随径流流失。顺坡处理NVF和OVF与环境因子径流量和氮磷养分流失量TN、TDN、NO_3~--N、NH_4~+-N、TP、TDP呈正相关,横坡处理OHF和OHFR与其呈负相关。     

滴灌灌水均匀系数与灌水量对土壤水分分布及温室番茄产量的影响

为探索灌水均匀系数与灌水量对温室番茄产量和土壤水分变化的影响,确定合理的滴灌灌水均匀系数,本研究设置65%、75%和85%3个灌水均匀度水平, 190 mm、220 mm和250 mm 3个灌水量水平,测量番茄生育期内土壤含水率及番茄产量,计算土壤含水率均匀系数和番茄灌溉水利用效率。结果表明,当灌水均匀系数为65%～85%时,土壤水分均匀系数均值(82.57%～93.76%)接近或高于设置的滴灌灌水均匀系数的最大值(85%)。滴灌灌水均匀系数对土壤含水率均匀系数影响权重最大,灌水量、灌水均匀系数、土壤初始含水率均值3个影响因素与土壤含水率均匀系数均值之间呈线性关系(P0.05),决定系数为0.918。当土壤初始含水率占田间持水量比重60%,灌水量低于15mm时,灌水均匀系数与灌水量二者的交互作用与土壤含水率均匀系数为显著线性关系(P0.05),其他情况下均无显著性关系。灌水量对产量为显著影响(P0.05),灌水均匀系数及二者的交互作用对番茄产量无显著影响,考虑产量及灌溉水分利用效率,灌水量220 mm、灌水均匀系数75%组合为最优组合。因此在西北地区,综合考虑经济性和系统的可靠性,建议下调现行滴灌灌水均匀系数标准。     

Indicators and trade-offs of ecosystem services in agricultural soils along a landscape heterogeneity gradient

Soil functions can be classified as supporting (nutrient cycling) and provisioning (crop production) ecosystem services (ES). These services consist of multiple and dynamic functions and are typically assessed using indicators, e.g. microbial biomass as an indicator of supporting services. Agricultural intensification negatively affects indicators of soil functions and is therefore considered to deplete soil ES. It has been suggested that incorporating leys into crop rotations can enhance soil ES. We examined this by comparing indicators of supporting soil services – organic carbon, nitrogen, water holding capacity and available phosphorous (carbon storage and nutrient retention); net nitrogen mineralisation rate and microbial biomass (nutrient cycling and retention) – in barley fields, leys and permanent pastures along a landscape heterogeneity gradient (100, 500 and 1000 m radii). In addition, barley yields (provisioning service) were analysed against these indicators to identify trade-offs among soil services. Levels of most indicators did not differ between barley and ley fields and were consistently lower than in permanent pastures. Leys supported greater microbial biomass than barley fields. Landscape heterogeneity had no effect on the indicators or microbial community composition. However, landscape heterogeneity correlated negatively with yield and soil pH, suggesting that soils in heterogeneous landscapes are less fertile and therefore have lower yields. No trade-offs were found between increasing barley yield and the soil indicators. The results suggest that soil ES are determined at the field level, with little influence from the surrounding landscape, and that greater crop yields do not necessarily come at the expense of supporting soil services.     

沼液淹没土壤抑制根结线虫及对土壤线虫群落的影响

为探索沼液抑制根结线虫的效果,本研究通过盆栽试验,以番茄为试供作物,对比了种植前沼液淹没土壤(BSS)、种植期间浇灌沼液(BS)和加热(HE)3种方法对根结线虫的防控效果。结果表明,与不采取任何措施的对照(CK)处理相比, BSS处理抑制根结线虫效果最为明显,防效高达97.1%,根结指数分别比HE和BS处理降低96.9%和92.9%。HE处理尽管在处理土壤后显著降低了根结线虫数量,但在最后破坏性取样时(结束试验)出现反弹,根结线虫数量甚至高于CK处理。对于土壤线虫群落,CK处理中以植食性线虫为主(81.8%);两个沼液处理中食细菌线虫占优势(平均78.3%),且其中的杂食捕食性线虫在土壤前处理后消失,在试验结束时又重新出现,但所占比例依然非常低。沼液淹水方式的高效防控效果揭示了利用沼液防控根结线虫的关键期在于线虫入侵到植物根部之前的幼虫期。然而,在盆栽系统中,沼液淹水的方式也对作物生长表现出了一定的抑制趋势。高量沼液施用防控病害的同时引发的植物毒害作用以及环境污染风险,需要进一步开展田间研究。     

有机肥等氮替代化肥对红壤团聚体及玉米产量和品质的影响

为研究有机肥等氮替代化肥对土壤结构、玉米产量和品质的影响,设置有机肥等氮替代化肥的10%（M10）、20%（M20）、30%（M30）、40%（M40）,以单施化肥（M0）和不施肥（CK）为对照6个施肥处理,测定玉米不同生育期的土壤团聚体变化状况。结果表明：随有机肥等氮部分替代化肥比例的增加,玉米各生育期土壤>0.25mm水稳性团聚体（R_0.25）、平均质量直径（MWD）、几何平均直径（GWD）不断增加,团聚体破坏率（PAD）、分形维数（D）不断降低。与M0处理相比,M30和M40处理显著提高了玉米子粒产量,表现为M30>M40;M20、M30、M40处理较M0处理玉米子粒蛋白质含量显著增加了13.29%~25.03%,淀粉含量显著增加了39.84%~114.06%,可溶性糖含量显著增加了36.49%~54.05%;蛋白质含量表现为M30和M20处理显著大于M40处理,M30与M20处理间差异不显著;淀粉含量表现为M40>M30>M20,差异显著;可溶性糖含量表现为M40和M30处理显著大于M20处理,M30与M40处理间差异不显著。玉米子粒产量和品质与抽雄期、成熟期土壤团聚体R_0.25呈极显著正相关（P<0.01）,与PAD、D值呈极显著负相关（P<0.01）。因此,玉米生产中,利用有机肥等氮替代化肥培肥土壤,需兼顾玉米产量和品质,30%为适宜的有机肥等氮替代化肥比例。     

Can differences in 15N natural abundance be used to quantify the transfer of nitrogen from legumes to neighbouring non-legume plant species?

Natural variations in the stable isotope ¹⁵N are often exploited in studies of N cycling in ecosystems. Lower ¹⁵N natural abundance in non-legume plants growing in association with legumes, compared with the non-legume grown alone in pure stands have been observed in cropping, forage, and agroforestry systems. Such observations have frequently been attributed to the transfer of biologically-fixed nitrogen (N) from the legume to the companion non-legume, and various methodologies have been employed to calculate the extent of the N transfer. While some of these ¹⁵N natural abundance-based estimates of N transfer were within the range previously reported using equivalent ¹⁵N-enriched techniques (<20% of non-legume plant N and <10 kg N ha⁻¹ derived from fixed N contributed by neighbouring legumes), many of the values obtained using natural abundance were much higher (30%–83% of the non-legume N derived from fixed N representing up to 30–40 kg N ha⁻¹) than generally measured by ¹⁵N-enriched methods; with even greater estimates being determined where data were available to allow N transfer to be re-calculated on the basis of total legume N rather than fixed N (42% to >100%, and up to 110 kg N ha⁻¹ per year). This review raises concerns about the assumptions behind the natural abundance approach, and provides some alternative interpretations for the observed differences in natural ¹⁵N abundance between plants grown in the presence and absence of legumes. It was concluded that simple comparative measures of non-legume δ¹⁵N alone cannot provide a quantitative estimate of N transfer between plant species if the dominant source and the isotopic identity of the transferred N cannot be validated, and if the extent of any isotopic fractionation associated with relevant N transformations occurring during transfer cannot be defined. To date this information is not forthcoming. There is a need to greatly improve our understanding of the transfer processes before the real value of the δ¹⁵N technology can be realized. In the first instance this will primarily be achieved by carefully executed experiments under controlled conditions, and in the field, employing both ¹⁵N natural abundance and enrichment approaches so estimates of transfer can be compared, and the data interrogated using modelling approaches to explore isotopic fractionation.     

Cross‐linked polyacrylates in post‐mining substrates: persistence and effects on plant growth

Application of hydrophilic polymers composed of cross‐linked polyacrylate can improve soil water‐holding capacity and accelerate the restoration of post‐mining substrates. In this work, we studied the persistence of a polyacrylate polymer incorporated into a soil and its impact on plant nutrients at a reclamation site of former lignite mining in Lusatia (Germany). In contrast to autumn application, the incorporation of the polymer enhanced the sequestration of plant‐derived carbon in the soil, which was reflected by a significant increase in the concentration of a lignin marker. Attenuated total reflexion–Fourier transform infrared spectra (ATR‐FTIR) and total elemental contents in the applied polymer suggested an intensive cation exchange between the polymer framework and the soil‐forming substrate. In addition, there was an enrichment of carbonaceous material, which seems to reduce the swelling and thus the water‐holding capacity of the cross‐linked polyacrylate. Conversely, this process protected the polymer structure from rapid decomposition.