基于气象-生理的夏玉米作物系数及蒸散估算

准确估算作物系数对预测作物实际蒸散量和制定精准的灌溉计划至关重要。为反映作物逐日作物系数变化,综合考虑气象和生物因子对作物生长的共同影响,采用五道沟水文实验站大型蒸渗仪夏玉米实测蒸散及气象数据,基于地温及叶面积指数建立了气象-生理双函数乘法模型,并结合梯度下降法对模型进行了精度优化。结果表明,在整个玉米生长期中,作物系数实测值和计算值平均绝对误差为0.12,均方根误差为0.15,相关性为0.91,蒸散量实测值与计算值平均绝对误差为1.0 mm/d,均方根误差为4.5 mm/d,相关性为0.75。该模型计算的全生育期蒸散量准确率(误差在2～3 mm/d以内)相比使用联合国粮农组织(FAO)推荐的作物系数计算所得准确率提高了3倍以上,可更精确用于作物系数及蒸散量计算。     

中国橄榄研究40年

橄榄是我国热带亚热带特色果树,栽培历史悠久。40年来,我国橄榄研究取得长足进步,在一些领域获得重大突破,有力地支撑了橄榄产业的发展。本文全面梳理40年来我国橄榄研究发展历程及取得的主要成绩,总结橄榄种质资源、栽培技术、果实品质、保鲜加工、药理活性和生物技术等方面取得的重要进展。针对我国橄榄产业存在的问题及发展趋势,建议加强橄榄应用基础研究及产业关键性技术研发,推动橄榄产业转型升级与绿色发展。     

Effects of cover crop growth and decomposition on the distribution of aggregate size fractions and soil microbial carbon dynamics

Although the effects of cover crops (CC) on various soil parameters have been fully investigated, less is known about the impacts at different stages in CC cultivation. The objective of this study was to quantify the influence of CC cultivation stages and residue placement on aggregates and microbial carbon (C_mic). Additionally, the influence of residue location and crop species on CO₂ emissions and leached mineralized nitrogen (N_min) during the plant degradation period was also investigated. Within an incubation experiment, four CC species were sown in soil columns, with additional columns being kept plant‐free. After plant growth, the columns were frozen (as occurs in winter under field conditions) and then incubated with the plant material either incorporated or surface‐applied. With CC, concentrations of large and medium macroaggregates were twice that of the fallow, confirming positive effects of root growth. Freezing led to a decrease in these aggregate size classes. In the subsequent incubation, the large macroaggregates decreased far more in the samples with CC than in the fallow, leading to similar aggregate size distributions. No difference in C_mic concentration was found among the CC cultivation stages. CO₂ emissions were roughly equivalent to the carbon amounts added as plant residues. Comparison of columns with incorporated or surface‐applied residues indicated no consistent pattern of aggregate distribution, CO₂ emission or C_mic and N_min concentrations. Our results suggest that positive effects of CC cultivation are only short term and that a large amount of organic material in the soil could have a greater influence than CC cultivation.     

雪灾对农业影响的损失评估

为了分析雪灾对宁波市农业影响的损失,并对其进行评估。本研究选取宁波市2014年一次降雪过程,基于自然灾害理论,综合考虑形成雪灾损失的危险性、暴露性、脆弱性和防灾减灾能力,将遥感、地理信息技术与雪灾损失相结合构建雪灾损失评估模型。结合土地利用类型图,提取农业用地,将雪灾对农业影响的损失区域划分为低损失、中损失和高损失,并进行分区评述。结果表明:余姚市的积雪覆盖面积最大,且雪灾各损失等级所占面积均最大,受灾最严重;海曙区、江东区和江北区无积雪覆盖,无雪灾损失。雪灾高损失区域主要位于海拔较高的余姚南部和鄞州西部山区。     

浅析灌溉对作物根系及产量的影响

结合文献资料,从作物根系的水平分布、垂直分布、硝态氮运移及产量等几个方面,概述了不同灌溉量和灌溉方式对作物的影响,分析了滴灌、渗灌等微灌技术的应用。最后,针对经济林木生产的实际现状,进行了展望：探索一种成本低、简单易操作、便于推广应用的灌溉措施更具有理论和实践意义。     

磁化水在农作物上应用的研究进展

针对磁化水对农业生产的影响,简述了国内外关于磁化水应用的研究动态和发展趋势,介绍了磁化水在促进作物种子萌发、增强抗逆性以及提高产量和改善品质方面的研究进展。     

Single season effects of mixed-species cover crops on tomato health (cultivar Celebrity) in multi-state field trials

Cover crop use can help mitigate the deleterious effects of common cropping practices (e.g., tillage) and is, therefore, an important component of soil health maintenance. While known to be beneficial in the long-term, the short-term effects of cover crops, specifically mixed-species cover crops in organic systems are less clear. Cover crop effects on tomato productivity and disease severity were recorded over three field seasons (2010, 2011 and 2012) at sixteen field sites in three states, Maryland, New York and Ohio (MD, NY and OH), each with distinct soilborne disease pressure. Plots of five state-specific cover crop treatments were established the season prior to tomato production; the resulting plant residue was incorporated the following spring approximately four weeks before tomato planting. Total fruit yields along with early-season shoot height and fresh weight were used to compare treatment effects on productivity. Treatment disease severity ratings relied on natural inoculum. Interestingly, the effect of a single season of cover cropping on total yield was significant in no more than 25% of all site years. Similarly, cover crop effects on tomato disease levels were significant in 0–44% of the sixteen field sites. However, significant field-specific patterns were observed in every state across multiple years for some treatments. For example, in New York in 2010, tomato yields following all mixed cover crops were greater than the single rye cover crop in one field, but this pattern was reversed in the adjacent field. Thus, no general recommendation of a specific cover crop mixture can be made for near-term enhancement of tomato productivity or for reduction of disease. Therefore, growers should focus on location and operation-specific variables when choosing cover crops.     

Drought Tolerance and Water‐Use Efficiency of Biogas Crops: A Comparison of Cup Plant,Maize and Lucerne‐Grass

The cup plant (Silphium perfoliatum L.) is discussed as an alternative energy crop for biogas production in Germany due to its ecological benefits over continuously grown maize. Moreover, a certain drought tolerance is assumed because of its intensive root growth and the dew water collection by the leaf cups, formed by fused leaf pairs. Therefore, the aim of this study was to estimate evapotranspiration (ET ), water‐use efficiency (WUE ) and the relevance of the leaf cups for the cup plant's water balance in a 2‐year field experiment. Parallel investigations were conducted for the two reference crops maize (high WUE ) and lucerne‐grass (deep and intensive rooting) under rainfed and irrigated conditions. Root system performance was assessed by measuring water depletion at various soil depths. Transpiration‐use efficiency (TUE ) was estimated using a model approach. Averaged over the 2 years, drought‐related above‐ground dry matter reduction was higher for the cup plant (33 %) than for the maize (18 %) and lucerne‐grass (14 %). The WUE of the cup plant (33 kg ha^?1 mm^?1) was significantly lower than for maize (50 kg ha^?1 mm^?1). The cup plant had a lower water uptake capacity than lucerne‐grass. Cup plant dry matter yields as high as those of maize will only be attainable at sites that are well supplied with water, be it through a large soil water reserve, groundwater connection, high rainfall or supplemental irrigation.     

2001−2016年祁连山地区植被覆盖度对干旱的响应

祁连山地区位于西北干旱半干旱地区,气候干燥,降水量少,区域内部生态环境脆弱。全球气候变暖及经济发展,对区域生态环境造成了重大影响。本研究通过研究植被覆盖度(fractional vegetation cover,FVC)时空分布特征和变化趋势以及对干旱的响应,为生态环境改善和减轻干旱影响提供依据。本研究基于MOD13Q1遥感数据以及气象数据,采用像元二分模型、Thornthwaite方法、趋势分析法、Hurst指数和相关分析法,计算得到2001?2016年祁连山地区FVC和表示干旱的标准化降水蒸散发指数(standardized precipitation evaportranspiration index,SPEI),分析FVC和SPEI时空分布特征和动态变化趋势,以及二者之间的相关关系。研究表明:1)2001?2016年祁连山地区FVC整体呈增长趋势,2001年FVC最低,2011年FVC最大,季节变化明显,夏季FVC最高;空间上,祁连山地区FVC整体呈东南高西北低的分布特征,年均值为0.4522,区域差异明显,绝大部分区域FVC呈增加趋势;2)近16年,祁连山地区FVC改善的区域占77.13%,退化的区域占22.87%;FVC未来变化趋势负向特征强于正向特征,持续改善的面积为28.10%,由改善到退化的面积最大为49.23%,需要加大力度对这些区域进行关注和保护;3)祁连山地区绝大多数地区处于湿润状态,中段和东段部分地区处于轻度干旱;不同时间尺度上,年际SPEI均呈现干旱化加强趋势,总体上2001?2016年祁连山地区干旱化程度呈降低趋势,气候向好的方向发展;4)年尺度上祁连山地区SPEI与FVC呈正相关关系,季节尺度上夏季FVC对SPEI干旱程度响应最明显,春季和秋季次之,说明FVC与SPEI间相关显著性越高,响应也就越明显。     

高寒草地生长季/非生长季植被盖度遥感反演

植被盖度是刻画陆地生态系统植被覆盖的重要生态参量。以当雄县Landsat-8OLI为数据源,从10种常用植被指数中筛选出适合反演高寒草地生长季/非生长季草地植被盖度的植被指数,引入像元三分法确定端元特征值,通过不同植被指数基于像元二分模型反演植被盖度的对比分析,确定适合生长季/非生长季植被盖度最优植被指数,根据反演结果分析了研究区草地生长季/非生长季植被盖度的时空变化特征。结果表明：1）由可见光-近红外波段构建的植被指数适用生长季植被盖度反演,由短波红外构建的植被指数适用于非生长季植被盖度反演。2）基于MSACRI的像元二分模型适合非生长季植被盖度反演,基于NDVI的像元二分模型则最适用于生长季植被盖度的反演。3）研究区草地植被盖度随海拔增加呈现先增加后减少的单峰变化格局,草地集中分布于海拔4300~5100 m处。生长季植被盖度主要集中于20%~80%,非生长季绝大部分的草地盖度小于40%。研究结果可为草地生态系统碳存储、植被生产力、土壤侵蚀、生态水文等研究提供参考依据。