种植年限对设施菜田土壤剖面磷素累积特征的影响

以山东寿光集约化设施菜田为研究对象,分析了不同种植年限设施菜田土壤磷素投入和土壤磷素累积的差异,比较不同种植年限土壤剖面中无机磷、有机磷、Olsen-P和CaCl2-P含量的变化特征。结果表明：磷素过量积累是设施菜田的显著特征,主要由于有机肥以粪肥投入为主,复合肥中P素比例偏高,收获作物带走量仅占磷素投入的7.2%;随着种植年限增加,P素累积现象明显,过量的磷素盈余导致了土壤剖面中不同形态磷含量的上升,其中以无机磷尤其明显;用来表征土壤有效磷指标的Olsen-P与CaCl2-P有显著的相关性,研究区域中当土壤（Olsen-P）达到80.7mg·kg-1时,土壤CaCl2-P开始显著升高,增大了设施菜田磷素淋溶风险。     

基于电阻抗成像的植物单根断层图像重建

为了实现植物根系结构形态的原位检测,植物根系单根的断层图像重建研究非常必要。该文应用动态电阻抗成像技术对土壤-树根模拟系统进行了图像重建,对重建图像进行二值化处理并求出树根在该系统中的位置坐标、面积和形状,并以树根的位置坐标、面积及形状的相对偏差为指标,分析了图像重建算法、土壤含水率2个因素对成像质量的影响。结果表明：电阻抗成像技术能够实现树木单根断层图像重建;将重建图像进行二值化处理,所得图像更加直观,便于定量评价成像质量;基于Newton单步残差正则化的一步牛顿误差重构（Newton's one-step error reconsruction,NOSER）算法,比基于全变差正则化的主双-内点模式（primal dual-interior point method,PD-IPM）算法的成像质量好;土壤含水率越高成像质量越好。该研究为基于电阻抗成像技术的植物根系结构形态的图像重建提供参考。     

自然环境下葡萄采摘机器人采摘点的自动定位

针对葡萄果梗颜色复杂多变、轮廓不规则等影响因素使得采摘机器人难以准确对采摘点进行定位的问题,该文提出一种基于改进聚类图像分割和点线最小距离约束的采摘点定位新方法。首先通过分析葡萄图像的颜色空间,提取最能突显夏黑葡萄的HSI色彩空间分量H,运用改进的人工蜂群优化模糊聚类方法对葡萄果图像进行分割;然后对分割图像进行形态学去噪处理,提取最大连通区域,计算该区域质心、轮廓极值点、外接矩形;再根据质心坐标与葡萄簇边缘信息确定采摘点的感兴趣区域,在区域内进行累计概率霍夫直线检测,求解所有检测得出的直线到质心之间的距离,最后选取点线距离最小的直线作为采摘点所在线,并取线段中点坐标作为采摘点。以从晴天顺光、晴天遮阴、阴天光照下采集的300幅夏黑葡萄进行分类试验,结果表明,该方法的采摘点定位准确率达88.33%,平均定位时间为0.3467 s,可满足采摘机器人对采摘点的定位需求,为葡萄采摘机器人提供了一种新的采摘点求解方法。     

西南地区水稻洪涝等级评价指标构建及风险分析

构建水稻洪涝灾害等级评价指标体系,评估水稻洪涝致灾风险,对开展水稻洪涝防灾减灾、灾害保险意义重大。以西南地区一季稻为研究对象,利用气象资料、水稻灾情史料和生育期资料,在水稻洪涝灾害反演的基础上,构建水稻洪涝灾害样本过程雨量序列。基于Kolmogorov-Smirnov(K-S)分布拟合检验,采用置信区间下限值确定阈值的方法,构建水稻洪涝等级评价指标,并采用预留独立水稻洪涝灾害样本进行检验验证。在此基础上,计算西南地区各站点洪涝致灾风险指数。结果表明:水稻洪涝灾害的过程降水强度为抽穗成熟期拔节孕穗期移栽分蘖期;构建的西南地区水稻洪涝等级指标能较好地反映水稻洪涝实际受灾程度,指标验证完全一致的吻合率为66.7%,完全一致及相差1级的吻合率为100%。水稻洪涝灾害风险移栽分蘖期拔节孕穗期抽穗成熟期,高风险区域主要位于云南南部和东北部、贵州南部、以及四川中部的成都、眉山和德阳地区。     

环境变化对湘江湘潭站径流的影响研究

环境变化引起河川径流的显著变化,为水文水资源管理带来新的挑战,如何区分气候变化和人类活动对径流的影响是水文科学研究的热点和难点。基于STARS和Pettitt方法,综合检验径流时间序列的突变点,构建天然期径流过程模拟的水文模型,将人类活动期的径流过程还原到天然状态,并从不同年代和不同水平年的角度探讨环境变化对人类活动期的径流影响。结果表明:1992年为湘潭站1957—2014年径流时间序列的突变点,新安江模型对湘潭站天然期径流过程具有较好的模拟效果,人类活动和气候变化引起人类活动期径流增加的贡献率分别为68.24%和31.76%,气候变化影响最大的时间为2011—2014年,人类活动影响最大的时间为2001—2010年,尤以丰水年影响最大。     

基于微生物燃料电池供能的无线温度传感系统设计

微生物燃料电池(microbial full cell,MFC)是利用微生物作为生物催化剂将碳水化合物转化为电能的装置。针对MFC输出电压低、功率小、内阻大的特点,该文研制了一种具有最大功率点跟踪(maximum power point tracking,MPPT)功能的能量收集电路和两级升压电路;基于MSP430和CC2500芯片设计了环境温度传感系统。测试结果表明,MFC的输出电压维持在316～390 mV范围内,实现了最大输出功率的跟踪,MPPT电路和升压电路分别输出1.1和3.5 V电压;无线温度传感器以每13ms的周期将环境温度无线传输到远程终端,验证了环境温度传感系统在最大功率点处对无线传感器网络节点供电工作的可行性,可为实现MFC主动式能量收集提供参考。     

Effect of Soil Organic Matter on Adsorption and Insecticidal Activity of Toxins from Bacillus thuringiensis

With the large-scale cultivation of transgenic crops expressing Bacillus thuringiensis (Bt) insecticidal toxin in the world, the problem of environmental safety caused by these Bt crops has received extensive attention. The effects of soil organic matter (SOM) on the adsorption and insecticidal activity of Bt toxin in variable- and constant-charge soils (red and brown soils, respectively) were studied. Organic carbon in the soils was removed using hydrogen peroxide (H_2O_2). After H_2O_2 treatment, the SOM in the red and brown soils decreased by 71.26% and 82.82%, respectively. Mineral composition of the H_2O_2-treated soils showed no significant changes,but soil texture showed a slight change. After SOM removal, the cation exchange capacity (CEC) and pH decreased, while the specific surface area (SSA), point of zero charge (PZC), and zeta potential increased. The adsorption isotherm experiment showed that the Bt toxin adsorption on the natural and H_2O_2-treated soils fitted both the Langmuir model (R~2≥ 0.985 7) and the Freundlich model (R~2≥ 0.984 1), and the amount of toxin adsorbed on the H_2O_2-treated soils was higher than that on the natural soils. There was a high correlation between the maximum adsorption of Bt toxin and the PZC of soils (R~2= 0.935 7); thus, Bt toxin adsorption was not only influenced by SOM content, but also by soil texture, as well as the SSA, CEC, PZC, and zeta potential. The LC_(50) (lethal concentration required to kill 50% of the larvae) values for Bt toxin in the H_2O_2-treated soils were slightly lower than those in the natural soils, suggesting that the environmental risk from Bt toxin may increase if SOM decreases. As the measurement of insecticidal activity using insects is expensive and time consuming, a rapid and convenient in vitro method of enzyme-linked immunosorbent assays is recommended for evaluating Bt toxin degradation in soils in future studies.     

Transformation of Phosphorus in Forest and Savannah Agro-Ecological Alfisols incubated with Different Phosphorus Fertilizers,in Ekiti state,Southwestern Nigeria

Experiments on incubation with phosphorus (P) changes in two Nigerian Alfisols, were evaluated on the effectiveness of P sources (ground phosphate rock, GRP-9% P, Pace-setter Organo-Mineral Fertilizer (PR-fortified P-S-OM, 11% P and single superphosphate, SSP-7.7% P, for reference). All samples were adjusted to water tension measured at M Ψ w = 0.03 MPa. Changes in applied P were evaluated at 2, 6, 12 and 24 weeks after which data were analyzed using analysis of variance and correlations. Over 24 weeks of incubation, SSP transformed mostly into iron (Fe)-bound P and GPR produced the highest inorganic phosphate ions and transformed largely into the soluble and more chemically stable residual P, in both soils. This fraction, had high and positive correlations (r = 0.69, p < 0.05) with soil properties and constituted a major source and sinks of plant available P. Thus, GPR contributing beneficial effects of residual phosphates.     

基于染色体单片段代换系的水稻粒形QTL定位

水稻的粒形是影响水稻产量和品质的重要因子之一, 是由多基因控制的数量性状。染色体单片段代换系由于减少了个体间遗传背景的干扰, 已经成为鉴定复杂性状QTL的新型遗传材料。本研究以广陆矮4号为受体,日本晴为供体的119个染色体单片段代换系群体为试验材料,通过单因素方差分析和Dunnett’s多重比较,测验单片段代换系与受体亲本之间粒形的差异,鉴定了代换片段上粒形相关的QTL。以P≤0.001为阈值, 共检测到39个粒形相关的QTL。其中,粒长相关的19个,其加性效应值为0.18~1.06 mm,加性效应百分率为2.40%~14.13%;粒宽相关的14个,其加性效应值为0.09~0.31 mm,加性效应百分率为2.71%~9.15%;粒厚相关的6个,其加性效应值为0.05~0.10 mm,加性效应百分率为2.14%~4.46%。这些QTL的鉴定,为进一步精细定位并克隆相应QTL和高产、优质水稻新品种的分子标记辅助选择奠定了基础。     

基于SNP标记的玉米株高及穗位高QTL定位

为进一步弄清玉米株高和穗位高的遗传机理,为育种生产提供服务,本研究以K22×CI7、K22×Dan3402个F₂群体为作图群体,利用覆盖玉米10条染色体的SNP标记构建了2个连锁图谱。并将这2个F₂群体衍生的分别含237和218个家系的F_2:3群体用于田间性状的鉴定。用复合区间作图模型对2个群体的株高、穗位高表型进行QTL定位分析,结果显示,在武汉和南宁两种环境条件下共定位到21个株高QTL和27个穗位高QTL;单个QTL表型变异贡献率的变幅为4.9%~17.9%;株高和穗位高QTL的作用方式以加性和部分显性为主;第7染色体上可能存在控制株高和穗位高的主效QTL。