香蕉副产物在家畜饲料方面的应用

香蕉皮和香蕉茎等香蕉副产物营养物质丰富,是可以饲料化的植物资源,可以作为饲料饲喂家畜,这样不仅减少了废弃香蕉副产物对环境的污染,重要的是资源得到充分利用。文章综述了香蕉副产物在饲料方面的国内外利用现状,期望为开发香蕉副产物的饲料化利用提供借鉴。     

施用多功能生态肥对番茄生长和经济效益的影响

为了解决敦煌市蔬菜品质差、产量低而不稳的疑难问题,为温室蔬菜安全生产提供技术支撑,进行了多功能生态肥对番茄生长和效益的研究。结果表明:多功能生态肥原料间的主次效应(R)是:B(番茄专用肥,R=26.92)A(有机生态肥,R=24.29)C(土壤消毒杀菌剂,R=12.55);最佳配方组合是:m(有机生态肥)∶m(番茄专用肥)∶m(土壤消毒杀菌剂)=0.818 6∶0.177 4∶0.004 0。施用多功能生态肥与施用传统化肥比较,番茄早疫病发病率和可滴定酸分别降低66.67%和28.00%;株高、生长速度、茎粗、地上部分鲜质量和地上部分干质量分别增加4.45%、3.81%、7.61%、8.40%和6.67%;单果质量、单株果质量、产量、可溶性糖和VC含量分别增加6.23%、9.26%、8.82%、27.46%和23.65%;施肥利润和肥料投资效率分别增加1.84×10~4元/hm~2和1.23元/元。在甘肃省敦煌市肃州镇的温室土壤上施用多功能生态肥,改善了番茄品质,提高了番茄的经济效益。     

不同氮素水平下有机物料添加对陇中黄土高原旱作农田N2O排放特征的影响

为了探究不同用量氮肥配施生物质炭或小麦秸秆对旱作农田N₂O排放通量的影响，在陇中黄土高原半干旱区连续进行4年不同氮素水平配施不同有机物料的田间定位试验，试验以3种施氮用量（不施氮肥、50 kg（N）·hm^-2氮肥、100 kg（N）·hm^-2氮肥）配施2种有机物料（小麦秸秆S、生物质炭B）及无有机物料 (C)共组成9个处理，于2016年11月—2017年10月，采用静态箱-气相色谱法，对N₂O通量进行全年内连续观测。研究结果表明：观测期内，各处理N₂O年平均通量大小排序SN100>CN100>SN50>CN50>BN100>SNO>BN50>CN0>BN0，各处理N₂O排放通量变化趋势一致；相较N0处理（CN0、SN0、BN0）的年平均排放通量，N50（CN50、SN50、BN50）和N100（CN100、SN100、BN100）处理分别增加了6.92%和10.03%。相较CN0、CN50和CN100，与其相同氮素水平配施生物质炭后，N₂O年平均排放通量分别降低了0.49%、3.15%和4.67%；配施秸秆后，N₂O年平均排放通量分别增加了6.37%、3.44%和2.73%。单施氮肥或小麦秸秆配施氮肥均增加了N₂O排放的增温潜势，生物质炭配施氮肥减少了N₂O排放的增温潜势。主效应分析表明，氮素、秸秆均对提升N₂O排放通量发挥显著效应，而生物质炭具有降低效应。相关分析表明，土壤温度与N₂O通量表现为显著正相关关系，土壤含水量与N₂O通量表现为显著负相关关系（P<5%）。通径分析表明，土壤温度对N₂O通量的增大作用远大于土壤含水量对N₂O通量的减小作用。秸秆或生物质炭与氮素无交互效应，N₂O排放通量随氮素水平的增加而增大，秸秆还田促进了N₂O排放而生物质炭抑制了N₂O排放。因此，添加生物质炭对旱作农田固氮减排具有较大的潜力。     

The priority of management factors for reducing the yield gap of summer maize in the north of Huang-Huai-Hai region,China

Understanding yield potential, yield gap and the priority of management factors for reducing the yield gap in current intensive maize production is essential for meeting future food demand with the limited resources. In this study, we conducted field experiments using different planting modes, which were basic productivity(CK), farmer practice(FP), high yield and high efficiency(HH), and super high yield(SH), to estimate the yield gap. Different factorial experiments(fertilizer, planting density, hybrids, and irrigation) were also conducted to evaluate the priority of individual management factors for reducing the yield gap between the different planting modes. We found significant differences between the maize yields of different planting modes. The treatments of CK, FP, HH, and SH achieved 54.26, 58.76, 65.77, and 71.99% of the yield potential, respectively. The yield gaps between three pairs: CK and FP, FP and HH, and HH and SH, were 0.76, 1.23 and 0.85 t ha~(–1), respectively. By further analyzing the priority of management factors for reducing the yield gap between FP and HH, as well as HH and SH, we found that the priorities of the management factors(contribution rates) were plant density(13.29%)fertilizer(11.95%)hybrids(8.19%)irrigation(4%) for FP to HH, and hybrids(8.94%)plant density(4.84%)fertilizer(1.91%) for HH to SH. Therefore, increasing the planting density of FP was the key factor for decreasing the yield gap between FP and HH, while choosing hybrids with density and lodging tolerance was the key factor for decreasing the yield gap between HH and SH.     

Regional distribution of wheat yield and chemical fertilizer requirements in China

Quantification of currently attainable yield and fertilizer requirements can provide detailed information for assessing the food supply capacity and offer data support for agricultural decision-making. Datasets from a total of 5 408 field experiments were collected from 2000 to 2015 across the major wheat production regions in China to analyze the spatial distribution of wheat yield, the soil nutrient supply capacity(represented by relative yield, defined as the ratio of the yield under the omission of one of nitrogen(N), phosphorus(P) and potassium(K) to the yield under the full NPK fertilizer application), and N, P and K fertilizer requirements by combining the kriging interpolation method with the Nutrient Expert Decision Support System for Wheat. The results indicated that the average attainable yield was 6.4 t ha~(-1), with a coefficient of variation(CV) of 24.9% across all sites. The yields in North-central China(NCC) and the northern part of the Middle and Lower reaches of the Yangtze River(MLYR) were generally higher than 7 t ha~(-1), whereas the yields in Southwest China(SWC), Northeast China(NEC), and the eastern part of Northwest China(NWC) were usually less than 6 t ha~(-1). The precentage of area having a relative yield above 0.70, 0.85, and 0.85 for N, P, and K fertilizers accounted for 52.3, 74.7, and 95.9%, respectively. Variation existed in N, P, and K fertilizer requirements, with a CV of 24.8, 23.9, and 29.9%, respectively, across all sites. More fertilizer was needed in NCC and the northern part of the MLYR than in other regions. The average fertilizer requirement was 162, 72, and 57 kg ha~(-1) for N, P_2O_5, and K_2O fertilizers, respectively, across all sites. The incorporation of the spatial variation of attainable yield and fertilizer requirements into wheat production practices would benefit sustainable wheat production and environmental safety.     

不同施氮量对半干旱区还田玉米秸秆腐解及养分释放特征的影响

为了揭示还田玉米秸秆在不同施氮水平下的腐解及养分释放特征,在马铃薯田间定位试验中,设置了6个不同施氮水平(T1:0 kg·hm~(-2);T2:75 kg·hm~(-2);T3:150 kg·hm~(-2);T4:225 kg·hm~(-2);T5:300 kg·hm~(-2); T6:375 kg·hm~(-2)),研究其对还田玉米秸秆腐解及养分释放特征的影响。研究表明:还田玉米秸秆的腐解主要发生在前90 d,在此期间玉米秸秆腐解较快,T1～T6处理的玉米秸秆腐解率分别为37.3%、40.3%、44.8%、45.0%、50.8%、48.4%,以T5处理为最高,处理间差异显著(P0.05);同时,T1～T6处理的玉米秸秆碳、氮释放率分别为48.2%～56.6%、33.8%～44.4%,T5处理下秸秆的碳、氮释放率均显著高于其他处理(P0.05),而秸秆磷、钾的释放率分别为43.1%～49.2%、90.5%～93.0%,处理间无显著性差异。还田150 d后,玉米秸秆的腐解率为52.7%～55.8%,养分释放表现为KCPN。综上所述,连续施氮可以显著促进还田玉米秸秆前期的腐解及碳氮的释放,但对磷钾的释放无明显影响,当施氮量为300 kg·hm~(-2)时还田玉米秸秆的腐解效果最好。     

基施沼渣液替代化肥氮对葡萄产量及品质的影响

以氮元素含量为定量指标,设计1个全施化肥处理和5个基施沼渣液替代化肥氮处理,以期为大面积生产葡萄园基肥施用沼渣液技术的推广和应用提供一定的理论参考。研究结果表明,随着基施沼渣液替代化肥氮比例的增加,葡萄产量呈现先增加后下降的趋势,100%NZY处理产量最高,为18197.03 kg/hm ²;粒重和穗重呈现同样的变化趋势。随着基施沼渣液替代化肥氮比例的增加,萌芽至成熟天数、叶片SPAD值、新梢节间长、粗度、百叶鲜重及单叶面积等生长指标都呈现逐渐增加的趋势,其中以150%NZY处理最高,表现出成熟期延迟,贪青晚熟,从而影响产量。基施沼渣液替代化肥氮可改善葡萄果粒品质,以70%NZY和100%NZY处理较好。随着基施沼渣液替代化肥氮比例的增加,葡萄果粒重金属Cu、Zn和Pb含量均有所增加,Cr含量则有所下降,Cd和As含量无明显变化。各处理中葡萄果粒重金属含量均低于相应的污染物限量标准(GB 2762—2005)。因此,本研究认为,综合葡萄产量和品质指标,沼渣液替代100%化肥氮可作为葡萄园定量化基施沼渣液的参考。     

华北地区夏玉米生产中磷素利用特征研究

为评估当前中国华北地区夏玉米生产中的磷素利用效率和影响因素,促进磷肥资源高效利用和降低损失和污染,本研究通过收集1980年以来公开发表的夏玉米田间试验的文献,对华北地区夏玉米磷肥试验数据进行收集、整理和分析,获得了夏玉米的籽粒与秸秆产量及其比例,以及施磷量与籽粒和秸秆磷含量的关系模型。研究发现,随着施磷量的增加,土壤-夏玉米作物系统的磷素表观盈亏量呈线性增加,在施磷达到75 kg/hm ²时,磷素表观盈亏量为0。华北地区的夏玉米磷肥平均利用效率约为15%;增加氮肥施用量以及与磷合理配施有利于提高磷肥利用效率。整体上,夏玉米对磷酸二铵的利用效率高于过磷酸钙;有机肥和化肥配施可以有效提高磷肥利用效率。夏玉米‘天泰60’品种的磷肥利用效率最高。在华北地区夏玉米生产中,选用磷酸二铵以及适合的氮肥水平、有机肥与化肥配施,可以提高磷肥利用效率,降低磷肥损失和环境污染风险。     

秸秆还田与化肥配施对汉中盆地稻麦轮作农田土壤固碳及经济效益的影响

为汉中盆地秸秆还田技术和合理化肥减量技术提供科学依据,2015—2017年小麦和水稻生长季,设置秸秆不还田+常规施肥(SN+NPK);秸秆常规还田+常规施肥(S+NPK);秸秆促腐还田+常规施肥(SD+NPK);秸秆促腐还田+化肥减量15%(SD+85%NPK);秸秆促腐还田+化肥减量30%(SD+70%NPK),共5个处理,研究其对土壤总有机碳(TOC)、活性有机碳(LOC)、碳储量(SCS)、作物产量及经济效益的影响。结果表明与秸秆不还田配施常规施肥处理(SN+NPK)相比,秸秆还田配施不同比例化肥处理显著提高了稻田0～15cm土层的TOC和LOC,增幅分别为3.62%～25.07%和23.01%～46.79%; S+NPK和SD+NPK处理提高了0～30 cm碳储量,增幅分别为4.67%和18.20%。而SD+85%NPK和SD+70%NPK分别降低8.31%和9.83%。S+NPK和SD+NPK处理显著增加了小麦和水稻籽粒产量,而SD+85%NPK和SD+70%NPK处理均降低了小麦和水稻产量,周年产量2年平均增幅分别为3.47%、8.70%、-3.65%、-8.12%。与SN+NPK处理相比, S+NPK、SD+NPK、SD+85%NPK、SD+70%NPK处理周年经济效益2年平均增幅分别为16.91%、23.56%、6.02%、1.06%。土壤有机碳、作物产量和经济效益SD+NPK处理的最高, S+NPK处理次之,SD+70%NPK处理最低,与之相比,SD+85%NPK处理在小麦和水稻两季共减少化肥80kghm–2,作物周年产量降低不明显,经济效益略有增加。秸秆还田与常规化肥配施是提高汉中盆地稻麦轮作体系农田固碳、产量及经济效益的最佳措施,两季作物全量还田条件下化肥用量减少15%是适宜该区域的绿色生产模式。     

盐城市农业废弃物资源化利用的现状、存在问题及建议

为治理农村污染,农业部明确了“一控、两减、三基本”的目标,主要是通过资源化利用的办法从根本上“控制农业用水的总量,减少化肥农药的施用总量,解决畜禽养殖污染、地膜回收和秸秆焚烧等问题”。阐述总结盐城市农作物秸秆能源化、肥料化、基料化、饲料化和工业原料化方面的利用,畜禽水产养殖污染治理和农业投入品等废弃物资源利用的进展,分析目前存在的问题,并提出下一阶段的工作建议。