沉积物中生物活性磷赋存形态对耗氧有机物的响应

[目的] 本研究为验证耗氧有机物影响沉积物中生物活性磷的赋存形态的假说。[方法]以葡萄糖代替耗氧有机物，将沉积物暴露于耗氧有机物30天。[结果表明] 不充气时，葡萄糖浓度0、2、4、8 mg/L下的表层沉积物Ex-P含量为0.02±0.01、0.02±0.01、0.03±0.01、0.02±0.01 μmol/g；充气时，相应葡萄糖浓度下的表层沉积物Ex-P含量为0.03±0.00、0.03±0.01、0.03±0.01和0.06±0.02μmol/g，葡萄糖浓度8mg/L下的Ex-P含量高于葡萄糖浓度0mg/L下的（P< 5%）。不充气时，葡萄糖浓度0、2、4和8mg/L 下的表层沉积物IP含量为0.96±0.42、0.74±0.29、0.97±0.78和0.88±0.22μmol/g；充气时，相应葡萄糖浓度下的表层沉积物IP含量为0.37±0.10、0.46±0.16、0.41±0.06和0.69±0.05μmol/g，葡萄糖浓度8mg/L下的IP含量高于葡萄糖浓度0mg/L下的（P< 5%）。[结论]耗氧有机物对沉积物中生物活性磷有双重阈值作用。     

高寒区施肥和混播对燕麦人工草地土壤碳氮储量及垂直分布特征的影响

了解高寒地区燕麦人工草地在燕麦品种、施肥措施和混播水平下土壤碳氮储量潜力及垂直分布动态，为高寒地区燕麦人工草地建植提供理论依据。采用4个燕麦品种（A1：青燕1号，Avena sativa cv. Qingyan No.1；A2：林纳，A. sativa cv. Lena；A3：青海444，A. sativa cv. Qinghai 444；A4：青海甜燕麦，A. sativa cv. Qinghai）、4个施肥水平（B1：不施任何肥料，CK0；B2：尿素75kg/hm2+磷酸二铵150kg/hm2，IM；B3：有机肥1500 kg/hm2，OM；B4：尿素37.5 kg/hm2+磷酸二铵75 kg/hm2+有机肥750 kg/hm2，IM+OM）和4个箭筈豌豆混播水平（C1：0 kg/hm2；C2：45 kg/hm2；C3：60 kg/hm2；C4：75 kg/hm2）的三因素四水平正交试验设计[L16(45)]，在燕麦拔节期、抽穗期、开花期、乳熟期和收获后期研究了3个因素对高寒区燕麦人工草地土壤C、N储量的影响极其垂直分布特征，为高寒区燕麦人工草地土壤固C、固N潜力评估提供理论依据。品种、施肥和混播均显著影响了燕麦人工草地土壤C、N储量。3个因素在作物生长期对土壤C储量的积累的影响大小表现为施肥＞混播＞品种，收获后期表现为混播＞施肥＞品种；各时期对土壤N储量的影响大小均表现为施肥＞混播＞品种。采用尿素37.5 kg/hm2+磷酸二铵75 kg/hm2+有机肥750 kg/hm2的施肥处理，混播75 kg/hm2箭筈豌豆建植的燕麦人工草地土壤C、N储量最高。施肥措施造成燕麦人工草地各时期不同土层间土壤C、N储量的差异。在3种措施影响下燕麦人工草地0~50cm土层土壤C、N储量潜力分别为176.78 t/hm2和11.78 t/hm2。土壤C、N随着土层的加深而逐渐下降，0~20cm土层土壤C、N储量显著高于其它土层。     

有机肥部分替代化肥对甘蓝生长、品质及土壤状况的影响

为探明化肥的减施并增施有机肥对甘蓝生长的影响,改善因施用过量化肥导致的蔬菜品质下降、肥料利用率降低和土地盐碱化等问题。本试验在冬闲田种植条件下,以鸡心甘蓝‘探春’为试验材料,采用田间小区（100%化肥、75%化肥+25%有机肥、50%化肥+50%有机肥）试验方法研究化肥减量及有机肥增施对甘蓝生长、品质以及土壤状况的影响。结果表明,化肥减量同时增施一定量有机肥对甘蓝产量和生物量无显著影响;随着有机肥施用量的增加,甘蓝横径有显著增加;随着有机肥施用比重的增加,硝酸盐含量逐渐从26.3 mg/kg降至17.7 mg/kg,亚硝酸盐含量从0.86 mg/kg降至0.60 mg/kg;同时土壤放线菌数量显著提高至300.99×10⁴CFU/g,土壤真菌数量显著降低至149.99×10³CFU/g;减施化肥显著提高了土壤pH（土壤pH提高至7.03）,土壤有机质含量无显著变化。可见,有机肥部分替代化肥可满足甘蓝生长过程中对肥料的需求,T50处理的甘蓝能够在化肥减量50%的情况下保持产量与品质不下降,同时提高土壤状况与放线菌数量,是相同条件下冬闲田甘蓝栽培一种稳产合理的施肥模式。     

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.     

山西省畜禽粪污土地承载力及粪尿替代化肥潜力分析

为明确山西省畜牧业的发展规模,优化畜牧业发展的空间格局,进一步为山西省农牧业实现绿色发展提供科学依据。研究基于农牧生产系统养分平衡的方法,测算了山西省县域尺度的畜禽粪污土地承载力。结果表明,山西省的种植业与畜牧业发展规模在空间上存在一定的错位,种植业发达的地区主要分布在省域南部和中部的区县,而畜牧业发达的地区则分布在省域北部、中部和东南部的区县;山西省当前的畜牧业发展规模折合为2 371.77万猪当量,以粪尿氮作为约束指标,山西畜牧业可发展规模为5 976.01万猪当量;以粪尿磷(纯磷,下同)作为约束指标,山西畜牧业可发展规模为7 212.27万猪当量。综合粪尿氮磷承载力指数结果分析,超载区域主要分布在省域北部种植业欠发达的区县和省城太原周边的区县;全省粪尿氮、磷的有效供给量分别为18.28万t和3.15万t,可以分别有效替代氮、磷肥39.79%和33.21%。无论以粪尿氮或磷作为约束指标,山西畜牧业整体上仍有较大的发展空间,可适度增加畜禽养殖规模,但需要关注城市近郊区县的畜禽粪尿氮磷的环境排放和大中型养殖企业的点源污染问题。在畜禽粪尿养分资源管理策略上,则应考虑优化农牧业生产布局和区域间协同管理。     

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。     

河北太行山区典型水土保持林乔木层生物量及碳储量研究

以河北太行山区4种典型水土保持林为研究对象,对混交林(栓皮栎-侧柏)、油松林、栓皮栎林和刺槐林的乔木层各器官生物量、含碳率以及碳储量进行比较研究。结果表明:混交林、油松林、栓皮栎林和刺槐林生物量分别为51.94,86.40,90.19,18.08t/hm^2,栓皮栎林和油松林生物量高于4种水土保持林生物量的均值(61.65t/hm^2),而混交林和刺槐林生物量分别占生物量均值的84.25%,29.33%。不同林分各器官在乔木层生物量中分配顺序均表现为树干>树根>树枝>树叶。4种典型林分各器官含碳率分别为45.16%~58.93%,58.48%~64.61%,51.16%~58.37%,52.35%~62.30%。4种典型林分碳储量为10.10~53.85t/hm^2。不同林分类型各器官碳储量与生物量呈正比关系,与生物量趋势基本相同,碳储量大小表现为油松林>栓皮栎林>混交林>刺槐林。     

Changes in the carbon concentrations and other soil properties of some Scottish agricultural soils: Evidence from a resampling campaign

The change in soil carbon (C) concentration, soil pH and major nutrients for approximately 1,000 topsoil sampled from on-farm experimental sites over a thirty-year period from 1950 to 1980 in north-east Scotland are summarized. This period coincided with increased agricultural intensification, which included regular liming and fertilizer additions. During 2017, 37 of these sites were resampled and reanlaysed. While pH and extractable phosphorus (P) and potassium (K) increased over this period, there was no detectable change in the percentage loss on ignition. Composite soil samples were taken by auger from a depth of 0–15 cm and compared with the corresponding archived samples collected at the initiation of each experiment. Analysis of these resampled soils indicated no significant change in soil carbon (C), although soil pH, extractable magnesium (Mg) and K and Nitrogen (N) concentrations were significantly greater (p < .001) but extractable soil P concentration was significantly less (p = .015) compared with the original samples. Even though measuring C concentration alone is a poor indicator of overall changes in soil C stocks, it does provide a relative quick “early warning” of C losses that would justify a more comprehensive measure of stocks.     

Effect of conservation agriculture on soil organic and inorganic carbon sequestration and lability: A study from a rice–wheat cropping system on a calcareous soil of the eastern Indo-Gangetic Plains

Increasing soil carbon (C) in arable soils is an important strategy to achieve sustainable yields and mitigate climate change. We investigated changes in soil organic and inorganic carbon (SOC and SIC) under conservation agriculture (CA) in a calcareous soil of the eastern Indo-Gangetic Plains of India. The treatments were as follows: conventional-till rice and wheat (CT-CT), CT rice and zero-till wheat (CT-ZT), ZT direct seeded rice (DSR) and CT wheat (ZT-CT), ZTDSR and ZT wheat without crop residue retention (ZT-ZT), ZT-ZT with residue (ZT-ZT+R), and DSR and wheat both on permanent beds with residue (PB-PB+R). The ZT-ZT+R had the highest total SOC in both 0–15 and 15–30 cm soil layers (20% and 40% higher (p < .05) than CT-CT, respectively), whereas total SIC decreased by 11% and 15% in the respective layers under ZT-ZT+R compared with CT-CT. Non-labile SOC was the largest pool, followed by very labile, labile and less labile SOC. The benefits of ZT and residue retention were greatest for very labile SOC, which showed a significant (p < .05) increase (~50%) under ZT-ZT+R compared with CT-CT. The ZT-ZT+R sequestered ~2 Mg ha⁻¹ total SOC in the 0–15 cm soil layer in 6 years, where CT registered significant losses. Thus, the adoption of CA should be recommended in calcareous soils, for C sequestration, and also as a reclamation technique.