长期深耕秸秆还田配施生物炭对砂姜黑土团聚体及小麦-玉米产量的影响

为探究耕作方式、秸秆还田和生物炭添加结合对土壤团聚体粒径分布、团聚体养分特征、养分库储量及小麦-玉米周年产量的影响,本研究采用3因素2水平试验设计,分别为耕作方式：常规旋耕（CT）,深翻耕作（DT）;秸秆处理：秸秆还田（S）、秸秆不还田（NS）;生物炭：生物炭添加（B）、无生物炭添加（NB）,共8个处理。结果表明：无生物炭添加时,旋耕秸秆还田显著提高了0~15 cm土层团聚体稳定性及土壤养分库储量,而深耕秸秆还田显著改善了>15~30 cm土层土壤团粒组成,提升土壤肥力,促进作物增产。相关性分析表明,砂姜黑土中作物产量的提升更依赖于深层（>15~30 cm）土壤物理结构的改善和土壤肥力的提升。配施生物炭后如DT-S-B（深耕秸秆还田配施生物炭）较CT-NS-NB（旋耕秸秆不还田无生物炭）处理尤其使>15~30 cm土层团聚体稳定性显著增强,>2 mm粒级团聚体比例、重量平均直径和几何平均直径值分别增加165.88%、62.37%和119.81%,显著提高>2 mm粒级团聚体有机碳、全氮和全磷含量,提高了>2 mm粒级团聚体有机碳和养分固持能力,降低了<2 mm粒级团聚体有机碳和养分固持能力,使>15~30 cm土层土壤有机碳库储量、全氮、全磷和全钾库储量分别显著提升37.41%、38.99%、41.26%和9.84%,促使2年作物周年产量平均增加22.96%,但在深耕秸秆还田的基础上配施生物炭在短期内增产效果不显著。综上,深耕秸秆还田配施生物炭能够显著改善黄淮海南部砂姜黑土深层土壤团聚体粒径分布和稳定性,提升了土壤肥力和作物周年产量,保障了农田高效绿色可持续生产。     

Coupling changes of soil functional gene abundances and extracellular enzyme activities across the diagnostic horizons of agricultural Isohumosols

Soil functional microbial taxa and extracellular enzymes are involved in a variety of biogeochemical cycling processes. Although many studies have revealed the vertical change patterns of microbial communities along soil profile, the general understanding of the coupling changes in the functional gene abundances (FGAs) and extracellular enzyme activities (EEAs) in soil profiles is still limited, which hinders us from revealing soil ecosystem processes. Herein, we comparatively investigated the FGAs and EEAs in the diagnostic A, B, and C horizons of soil profiles obtained from two suborders of Isohumosols (Mollisols), Ustic and Udic Isohumosols, in Northeast China based on quantitative real-time polymerase chain reaction and standard fluorometric techniques, respectively. The distribution patterns of both FGAs and EEAs significantly distinguished by the two soil suborders and were also separated from A to C horizon. Additionally, the variations of EEAs and FGAs were greater in Udic Isohumosols compared to Ustic Isohumosols along soil profiles, and greater changes were observed in C horizon than in A horizon. Both FGAs and EEAs correspondently decreased along the soil profiles. However, when normalized by soil organic carbon, the specific EEAs significantly increased in deep soil horizons, suggesting that microorganisms will input more resources to the production of enzymes to ensure microbial nutrient requirements under resource scarcity. More importantly, we revealed that soil microbial nutrient demands were limited by carbon (C) and phosphorus (P), and the C and P limitations significantly increased along soil profiles with a greater C limitation observed in Ustic Isohumosols than in Udic Isohumosols. Overall, our findings provided solid evidence showing the links between FGAs, EEAs, and microbial nutrient limitations, which would be helpful for a better understanding of the ecosystem processes in soil profiles.     

林窗对根际和非根际土壤化学性质季节变化的影响

为了解林窗干扰对侧柏林土壤化学性质的影响情况,2012年1月在徐州市九里山东南坡侧柏人工纯林中随机开设27个小、中、大3种尺度的近圆形林窗进行试验,对不同尺度的林窗内根际和非根际土壤的pH、碳、氮等的季节变化进行对比分析。结果表明：林窗降低了根际和非根际土壤含水率,不同尺度林窗内根际与非根际土壤pH均中性偏碱性;根际土壤和非根际土壤的全碳、全氮含量在林窗形成后总体下降;林窗降低非根际土壤C/N,小尺度林窗根际土壤C/N值显著大于对照,小林窗对根际效应的提升更为显著。林窗对土壤C/N值根际效应的影响存在季节上的双反馈作用,林窗尺度、位置会对土壤养分循环造成影响,进而影响林分生产力,开设半径为4 m大小的林窗对林分发育及养分循环最有利。研究结果可为深入了解林窗对土壤养分动态根际效应的作用,揭示林窗干扰对森林生态系统稳定性机理提供一定的参考依据。     

Effect of Nutrient Type on Chemical Composition and Dry Matter Partitioning of Cassava （Manihot esculenta Crantz）

The objective of our study was to determine the effects of four types of fertilisers enrichments （manure potassic （K）, phosphatic （P）, phosphatic and potassic （PK） and nitrogenized, phosphated and potassic （NPK）） on chemical composition and dry matter in cassava （Manihot esculenta） organs （clone 1171） during harvest period. The pots experiment was laid out in randomised complete bloc design with five treatments and four replications. Water, nitrogen, potassium, phosphorus, sodium, total proteins and total lipids contents of the leaves, shoots and tubers were determined. After 9 months growing period, results showed that fertilizer types enriched with K, PK and NPK significantly increased the organic compounds contents of the leaves （P〈0.05）. Furthermore, fertilizers with high phosphorus content significantly increased the lipid contents of the leaves （25%）. Fertilizers enriched with NPK positively influenced the biomass partitioning in Manihot esculenta. Application of fertilizers enriched with NPK led to higher levels of total proteins in the leaves and tubers （70 mg g DM^-1 and 30 mg g DM^-1 respectively） compared to control （17 mg g DM^-1 and 9 mg g DM^-1 respectively）. These results help to demonstrate the value of these fertilizers enrichment to improve the chemical composition and dry matter partitioning of cassava.     

The importance of the riparian ecotone and river hydraulics for sustainable basin-scale restoration scenarios

1. The effect of riparian ecotone functional complexity and stream hydraulics on an upland river ecosystem has been analysed. 2. The amount of nutrients retained by bottom sediment was lowest on a sandy substrate (range: 26–104 mg m⁻² P-PO₄) and highest in wetland bays (range: 558–5368 mg m⁻² P-PO₄). A stream bed covered by Berula erecta had about three times higher retentive nutrient capacity ( x̄ = 584 mg m⁻² day⁻¹) than did a sandy substrate( x̄ = 205 mg m⁻² day⁻¹). 3. The amount of allochthonous organic matter (CPOM) deposited on the stream bed decreased with current velocity. The trophic potential of CPOM, measured as total protein, was significantly correlated with the amount of deposited CPOM (r = 0.863; p<0.00001) and depended on stream order. 4. Both invertebrate and fish biomass in the upland river were significantly correlated with calcium/bicarbonate (benthos: r = 0.858; p<0.006; fish: r = 0.918; p<0.001). 5. Fish biomass, diversity and species richness were highest in pools, lower in riffles and lowest in the run/transition zone. 6. Macroinvertebrate biomass was highest at an intermediate riparian ecotone complexity with an adequate supply of organic matter and incident light. Fish biomass followed the same trend, being lowest in heavily shaded areas and in open channels without riparian vegetation (range: 1–4.5 g m⁻²), but highest in ecotones of intermediate complexity (range: 1.6–92.8 g m⁻²). The ‘cascading effect’ of invertebrate density depletion, which was inversely related to fish biomass, was observed seasonally. 7. The above results indicate that riparian ecotone structure and the heterogeneity of the stream channel may regulate biodiversity, productivity and nutrient retention in the fluvial corridor. These quantitative data help to create alternative scenarios for sustainable river basin management. © 1998 John Wiley & Sons, Ltd.     

大连地区大樱桃常见缺素症状及防治对策

大樱桃是多年生木本果树,其根系分布较浅,且养分需求比较集中,常造成某些养分的缺乏。近年来在大连地区大樱桃种植区走访调查发现,钾、锰、镁、硼、铁等养分的缺素现象比较多,因此针对大樱桃以上缺素症状的识别和采取相应的防治对策是很有必要的,同时针对樱桃缺素发生的原因进行了深入的分析,以便于系统的对樱桃缺素进行综合防治。     

两种不同人工林土壤养分变化综合评价

为了探讨人工林地力潜在的衰退趋势,采用模糊综合评价方法,对内蒙古锡林郭勒盟多伦县一家河牧场境内26年生杨树人工林和落叶松人工林的土壤养分进行了评价。结果表明,2种人工林下的土壤养分衰退趋势均不明显,客观地反映了这2种人工林在该地区造林26年后土壤养分变化的实际情况,为该地区人工林的营造及可持续经营提供了理论依据。     

Response to lime and P by several genetic sources of corn (Zsa mays L.) on a low pH and P soil in the greenhouse 1

The objective of this study was to investigate the response of 16 different genetic sources of corn (Zea mays L.) to lime and P application on a low pH and P Parsons silt loam soil in the greenhouse. A highly significant lime x P interaction was found for both dry matter production and P concentration. Phosphorus increased both dry matter production and P content of plant tissues with or without lime application. However, liming produced a detrimental effect when P was applied but no effect when no P was applied. Corn genetic sources showed a highly significant interaction with P treatment, but not with lime for both dry matter production and P concentration. The results suggest that improvement in corn growth could be achieved in a low P soil environment by genetic selection.     

白参菌研究进展

本文较为系统地对白参菌的生物学特性、生态习性、营养成分、食药用价值、人工驯化栽培等方面的研究进展进行了综述,为我省热区白参菌的研究、开发提供参考。     

食糜在矛尾复鰕虎鱼消化道排空速度及其营养含量的变化

选择规格一致、健康无病、初始体质量(43.42±0.75)g的矛尾复鳙虎鱼240尾,随机分到20个水族箱内,每箱12尾.饱食量投喂鲜杂鱼.然后不同时间取样,测定胃、前肠、中肠、后肠内容物的质量及其粗蛋白、脂肪和水分含量,探讨食糜在矛尾复鰕虎鱼消化道排空速度及其营养含量的变化.试验结果表明,矛尾复鰕虎鱼在刚摄食后胃内容物达到最大值,并随着时间的延长减少,至22 h排空为0.线性回归模型能较好地用来模拟食糜在胃中的变化;食糜在前肠、中肠和后肠出现的时间分别为摄食后1、3 h和4 h.达到最大值的时间分别为摄食后12、9 h和10 h.试验结束时(投喂后26 h)前肠、中肠和后肠仍有剩余食糜.食糜中粗蛋白和脂肪含量在胃、前肠、中肠、后肠逐渐降低,但胃中粗脂肪含量高于食糜中的含量,而粗蛋白含量低于食糜中含量.