气候和土地利用/覆被变化对宁波地区生态系统产水服务的影响

提供水资源是重要的生态系统服务功能之一,对区域经济和生态系统的可持续发展具有重要作用.近年来,人类活动对水资源的需求量增加,加之水环境污染和水资源浪费现象严重,造成了部分地区的缺水问题.在此背景下,本文以宁波地区为例,研究气候变化和土地利用/覆被变化对生态系统产水服务的影响.首先,利用InVEST模型中的产水量模块,估算了区域的产水量.然后,利用情景分析的方法设计6种情景,分析了气候变化和土地利用/覆被变化对区域产水量的影响.最后,量化了气候和土地利用/覆被变化这2种因素对生态系统产水服务的贡献程度,并讨论了形成机制.研究表明:①2000—2015年,宁波地区的降水量增加了6.44%,潜在蒸散量减少了8.35%.城镇化导致建设用地面积增加了120%,耕地面积减少了22.37%.在气候变化和土地利用/覆被变化的共同作用下,平均产水量增加了10.91%.②气候变化对生态系统产水服务的影响更为显著,而土地利用/覆被变化的影响较小.其中,2000—2015年气候变化对宁波地区产水量的贡献率高达97.56%,而土地利用/覆被变化的贡献率仅为2.44%.③城镇生态系统的产水量高于其他生态系统类型,农田生态系统的产水量高于森林和草地生态系统.因此,城镇化会增加产水量,退耕还林还草会导致产水量的减少.     

秸秆还田下氮肥用量对玉米产量及土壤无机氮的影响

研究连续2年秸秆还田下氮肥用量对玉米产量、氮肥利用率及土壤硝态氮的影响,结果表明,玉米产量随着施氮量的增加逐渐增加,施氮量达到216 kg·hm^-2时,产量最高,施氮量超过216 kg·hm^-2时产量有降低的趋势。相同施氮处理玉米产量年际变化明显,2010年较2009年产量提高0.69％~4.75％。氮肥利用率、氮肥农学利用率和氮收获指数随着秸秆还田年限的增加,均有不同程度的增加。2年0~100 cm土层土壤硝态氮含量均以施氮240 kg·hm^-2最高,且有向土壤深层迁移的趋势,对浅层地下水构成潜在的威胁。与施氮240 kg·hm^-2相比,施氮168、192 kg·hm^-2和216 kg·hm^-2处理0~100 cm土壤无机氮残留量2年平均减少39.87％、35.84％和29.38％。相同施氮处理,0~100 cm土壤无机氮累积量2010年较2009年略有降低。综合考虑玉米产量、氮肥利用率与生态环境效益,该地区最适施氮量200 kg·hm^-2左右。     

惠阳城区降雨径流重金属污染特征研究：Ⅰ.地表堆积物重金属含量分析

以惠阳城区为研究对象,选取4种具有代表性的典型城市功能区类型:工业区、商业区、住宅区、交通区,对其地表堆积物进行样品采集和实验分析.结果表明:地表堆积物细粒部分(粒径<149舯)所占比例为51%,粗粒部分(粒径>2 000um,)所占比例仅4.1%;重金属含量的粒径分级特性和质量分数相似,即粒径越细的部分重金属含量越高;Pb,Zn,Cu.Cr之间的相关系数较高;重金属的浸出浓度在不同的功能区基本遵循同样的规律,即细粒部分重金属浸出浓度最高,随粒径的增大浸出浓度逐减,细粒部分重金属的浸出浓度:w(Pb)为59.1 rag/kg/kg,w(Zn)为93.5 mg/kg,w(Cu)为37.7 ms/ks,w(Cr)为23.9 ms/kg,w(Cd)为0.07 mg,kg.     

Morphologie effects of channelization: the case of the Neebing-McIntyre floodway,Thunder Bay,Ontario, Canada

The Neebing-McIntyre floodway in Thunder Bay, Ontario, Canada, has been constructed with a relatively straight and uniform trapezoidal channel, compared with the prechannelized sinuous reaches of the Neebing and the McIntyre rivers. The flow regime of the floodway also contrasts significantly with the prechannelized regime, because of the combination of discharges from these rivers into a new channel and the regulation of flows by a diversion structure. The maximum channel capacity of the floodway is about 284 m³ s^–1 (175-year regional flood), compared with about 40 m³ s^–1 and 60 m³ s^–1, respectively, for the Neebing and the McIntyre. According to regime theories, the construction of a straight and trapezoidal channel has upset the equilibrium of the stream system and therefore should lead to some accelerated erosion and sedimentation processes in the new channel immediately after construction. Erosion potential is particularly high during higher discharge events, when flow velocities are expected to be greater than the prechannelized velocities of the Neebing and the McIntyre. The overall sediment yield of the watershed is low (71t km^–2 yr^–1), compared with other documented watersheds of North America, but the rates of deposition in the floodway are relatively high, mainly due to the backwater effect of Lake Superior. Unless maintained by constant channel work, the floodway will tend to fill up with sediment, until a postconstructional equilibrium is reestablished.     

Subcellular distribution and toxicity of cadmium in Potamogeton crispus L

The submerged macrophyte Potamogeton crispus L. was subjected to varying doses of cadmium (0, 20, 40, 60 and 80 μM) for 7 d, and the plants were analyzed for subcellular distribution of Cd, accumulation of mineral nutrients, photosynthesis, oxidative stress, protein content, and ultrastructural distribution of calcium (Ca). Leaf fractionation by differential centrifugation indicated that 48-69% of Cd was accumulated in the cell wall. At all doses of Cd, the levels of Ca and B rose and the level of Mn fell; the levels of Fe, Mg, Zn, Cu, Mo, and P rose initially only to decline later. Exposure to Cd caused oxidative stress as evident by increased content of malondialdehyde and decreased contents of chlorophyll and protein. Photosynthetic efficiency, as indicated by the quenching of chlorophyll a fluorescence (Fv/Fm, Fo and Fm), decreased significantly, the extent of decrease being directly proportional to the concentration of Cd. Increased amounts of precipitates of calcium were noticed in the treated plants, located either outside the cell membrane or in chloroplasts, mitochondria, the nucleus, and the cytoplasm whereas control plants showed small deposits of the precipitates around surface of the vacuole membrane and in the intercellular space but rarely in the cytoplasm. Photosynthetic efficiency and oxidative stress could be used as indicators of physiological end-points in determining the extent of Cd phytotoxicity.     

Protection of palak (Beta vulgaris L. var Allgreen) plants from ozone injury by ethylenediurea (EDU): Roles of biochemical and physiological variations in alleviating the adverse impacts

Ameliorative effects of ethylenediurea (N-[2-(2-oxo-1-imidazolinidyl) ethyl]-N′ phenylurea, abbreviated as EDU) against ozone stress were studied on selected growth, biochemical, physiological and yield characteristics of palak (Beta vulgaris L. var Allgreen) plants grown in field at a suburban site of Varanasi, India. Mean eight hourly ozone concentration varied from 52 to 73 ppb which was found to produce adverse impacts on plant functioning and growth characteristics. The palak plants were treated with 300 ppm EDU at 10 days after germination at 10 days interval up to the plant maturity. Lipid peroxidation in EDU treated plants declined significantly as compared to non-EDU treated ones. Significant increment in F_v/F_m ratio in EDU treated plants as compared to non-EDU treated ones was recorded. EDU treated plants showed significant increment in ascorbic acid contents and reduction in peroxidase activity as compared to non-EDU treated ones. As a result of the protection provided by EDU against ozone induced stress on biochemical and physiological characteristics of palak, the morphological parameters also responded positively. Significant increments were recorded in shoot length, number of leaves plant⁻¹, leaf area and root and shoot biomass of EDU treated plants as compared to non-EDU treated ones. Contents of Na, K, Ca, Mg and Fe were higher in EDU treated plants as compared to non-EDU treated ones. The present investigation proves the usefulness of EDU in partially ameliorating ozone injury in ambient conditions.     

浒苔生物炭与木醋液复配改良碱化土壤效果及提高油葵产量

为探究浒苔生物炭与木醋液复配改良碱化土壤效果及提高作物产量,以龟裂碱土为例,通过田间试验研究不同生物炭施加量(0、1％、2％和4％)与不同木醋液稀释倍数(0、2％)复配对土壤pH、碱化度、全盐、容重、速效磷、有机质、盐分离子、油葵生长和产量的影响,不施加生物炭和木醋液视为对照(CK).结果表明,2％浒苔生物炭+2％木醋液(V2BC2)改良龟裂碱土的综合效果最佳;在最佳处理条件下:①浒苔生物炭与木醋液复配能改善土壤理化性质,具体表现为作物生长期内土壤平均pH、碱化度和全盐含量显著降低,较CK分别降低12.14％、40.63％和42.75％,土壤容重显著减小,较CK减小20.78％;②浒苔生物炭与木醋液复配能显著降低土壤Na+、Cl-和SO42-含量,较CK分别降低47.17％、45.32％和33.33％,提高土壤K+和Ca2+含量,其他离子含量的差异不显著;③浒苔生物炭与木醋液复配显著提高土壤养分含量及有效性,增强土壤酶活性,与CK相比,速效磷提高2.88倍,有机质提高58.76％,土壤脲酶、碱性磷酸酶和蔗糖酶活性分别提高0.92、1.02和2.29倍;④油葵产量在V2BC2处理时最高,为3 546.7 kg-hm-2,较CK增产2 325.3 kg-hm-2.因此,浒苔生物炭与木醋液复配能进一步提高盐碱土改良效果及作物产量.     

基于网络组织视角的粮食产业化模式与优化路径

在全球粮食安全状况严峻以及中国人多地少的形势下,探讨粮食的产业化发展具有重要意义。从网络组织视角出发,梳理了中国粮食产业化模式并提出优化路径。研究表明：粮食产业化发展是一个网络化的成长过程。基于网络主体控制与参与网络的能力、融资形式以及立足或服务的空间尺度,可以将粮食产业化模式划分为“国家调控跨国公司组织模式”“地方主导龙头企业带动模式”“政府主导社会多元主体参与模式”和“市场主导私营企业推动模式”这四类主要模式,分别对应介于市场组织与等级制组织之间的全球—区域—本地网络组织,并以跨国公司、本地龙头企业、产业化联合体、产业园区、产业集群等产业化组织形式呈现。进一步建议从提升网络主体开始,通过优化网络结构、强化网络载体、完善网络治理来指导粮食产业化的高质量发展。     

中国主粮作物生物炭产量效应的Meta分析

为定量评估生物炭对主粮作物产量的影响,收集了公开发表的116篇相关文献,共866对数据,采用Meta分析法定量分析了生物炭对我国主粮作物产量的影响及其影响因子,同时构建结构方程模型(SEM)进一步解释了因子间的交互关系.结果表明,与不施用生物炭相比,生物炭施用后可改善主粮田土壤理化性质,提高主粮作物产量,平均增产率为8.77%.其中,当生物炭pH为7～8时,平均增产率最大,可达26.49%;其C/N<60时,平均增产率为13.73%,显著高于C/N≥60的平均增产率.将生物炭施入酸性或中性土壤中,更能发挥其增产效应.当施炭量为10～20 t·hm^-2时,小麦和玉米的平均增产率最大;施炭量为15～25 t·hm^-2时,水稻平均增产率最大.但是,不同施炭水平的水稻增产率相近,可考虑损失部分产量,适当减施以兼顾经济效益.此外,生物炭增产效应会随施用年限增加而不断减弱,一般3 a后增产不显著.SEM表明生物炭施用量不仅直接影响主粮作物产量,还通过改善土壤肥力间接影响主粮作物产量,而生物炭C/N和pH仅通过改善土壤肥力影响主粮作物产量.因此,今后...     

不同轮作制度下施肥对冬小麦田间杂草群落及小麦生长的影响

为探讨不同轮作制度下长期施肥对冬小麦Triticum aestivum L.田间杂草及小麦生长的影响,我们在三个长期田间肥效试验定位点,研究3种轮作制度下(冬小麦-大豆Glycine max (L.) Merr.(WS)、冬小麦-夏玉米Zea Mays L.(WM)、冬小麦-中稻Oryza sativa(WR))长期不同施肥模式对冬小麦田间杂草群落及小麦生长的影响.研究表明,在3种轮作制度下,平衡施加N、P、K肥或者NPK肥配施有机肥均可以显著降低冬小麦田杂草密度、地上生物量和田间光照透过率,促进冬小麦生长,并提高冬小麦产量和地上生物量;而且在冬小麦-大豆轮作和冬小麦-中稻轮作的冬小麦田中平衡施加N、P和K肥可以在控制杂草密度的同时保持一个较均一的杂草群落.3种轮作制度下各指标相对值比较发现,3种轮作制度改变施肥对冬小麦田间光照透过率影响程度的顺序与3种轮作制度改变冬小麦田中施肥对杂草密度和地上生物量影响程度的顺序相同;另外,在冬小麦-大豆轮作和冬小麦-中稻轮作制度下杂草密度与冬小麦田间光照透过率之间的相关系数也很高(R≥0.7906),说明施肥对冬小麦田间光照透过率的改变可能是施肥影响冬小麦田间杂草群落的主要途径之一.轮作制度改变冬小麦田中施肥对优势杂草种类数和杂草生物多样性影响的程度差别不大,这可能是因为轮作改变施肥对田间杂草的影响并没有达到引起田间杂草物种消亡的程度.结果表明,在3种轮作制度中施肥对冬小麦田间杂草群落及小麦生长的影响虽有差异,但都显示出施肥在抑制田间杂草发生、维持杂草生物多样性和提高作物产量上的作用.