生计多样化背景下种植业非点源污染负荷演变

依托三峡库区典型村农户访谈数据,基于收益最大目标决策框架,设定农村转型发展中3种农户生计类型情景：农业主导生计、兼业转向生计和非农主导生计,解析种植业产污负荷随主导生计非农转向的演变特征,探讨主导生计类型转向的动力机制。结果表明：① 样区耕地经营现状呈自耕、流转与撂荒并存的多元化发展格局,且表现出“入”小于“出”的特征,不同农户家庭类型间实际人均耕种规模为“半劳动力家庭”>“无劳动力家庭”>“劳动力家庭”;② 种植业单位面积产污负荷中,“半劳动力家庭”最高,“劳动力家庭”次之,“无劳动力家庭”最低,“劳动力家庭”内部又随劳动力人数增加呈先增再减趋势;③ 样区农户生计类型由农业主导向非农主导转型过程中,种植业产污负荷最大减幅达72.01%,兼业转向生计情景下削减幅度为19.61%~29.85%,非农主导生计情景下减幅为35.20%~72.01%,但TN、TP的减量特征并不一致;④ 劳动力配置与生计来源“非农化”促使农户主导生计类型向非农转化,生计非农演变的潜在农户收入/福祉权衡亦驱使生计决策转向非农化,不同农户家庭类型对生计转向的敏感程度表现为“劳动力家庭”>“半劳动力家庭”>“无劳动力家庭”;⑤ 在新型城镇化快速推进和创新新型工业体系构建过程中,山区农户生计类型进一步向非农转变,而这一过程又将促使种植业产生的污染负荷量进一步减少,要大幅削减种植业产污负荷,就必须制定有助于山区农户生计非农化的调控对策。     

黄淮海平原冬小麦最大可能蒸散的估算

作物最大可能蒸散考虑了作物及当地地表状况,为当地地表实际覆盖情况下实际蒸散的理论上限值,能客观分析作物对水分的需求程度和农业干旱状况。基于遥感（叶面积指数和地表反照率）数据和逐日气象数据,利用Penman-Monteith公式,计算黄淮海平原小麦种植区27个气象站冬小麦生育期2000-2015年逐日蒸散,提取得到冬小麦生育期逐日最大可能蒸散数据集,并分析其时空变化特征及成因。结果表明:与联合国粮农组织（FAO）单作物系数法计算的最大可能蒸散E_k对比,区域平均最大可能蒸散E_c的时间变化趋势与E_k一致,空间分布上E_c符合客观实际。黄淮海平原冬小麦全生育期、越冬期和返青-拔节期E_c均呈北低南高的分布特征,日平均值分别为1.99 mm,0.44 mm和2.75 mm;其余3个生育期（越冬前、抽穗期、乳熟-成熟期）在空间分布上差异不大,日平均值分别为1.23 mm,4.71 mm和3.74 mm。冬小麦不同生育期（含全生育期）E_c的空间分布主要受叶面积指数分布特征的影响,二者呈显著正相关关系。     

Assessing crop yield and crop water productivity and optimizing irrigation scheduling of winter wheat and summer maize in the Haihe plain using SWAT model

Haihe plain is an important food production area in China, facing an increasing water shortage. The water used for agriculture accounts for about 70% of total water resources. Thus, it is critical to optimize the irrigation scheduling for saving water and increasing crop water productivity (CWP). This study first simulated crop yield and CWP for winter wheat and summer maize in historical scenario during 1961–2005 for Haihe plain using previously well‐established Soil and Water Assessment Tool model. Then, scenarios under historical irrigation (scenario 1) and sufficient irrigation (scenario 2) were, respectively, simulated both with sufficient fertilizer. The crop yield in scenario 2 was considered as the potential crop yield. The optimal irrigation scheduling with sufficient fertilizer (scenario 3) was explored by iteratively adjusting irrigation scheduling based on the scenario 1 and previous studies related to water stress on crop growth. Results showed that net irrigation amount was, respectively, reduced 23.1% and 18.8% in scenario 3 for winter wheat and summer maize when compared with scenario 1. The CWP was 12.1% and 8.2% higher with very slight change of crop yield. Using optimal irrigation scheduling could save 8.8 × 10⁸ m³ irrigation water and reduce about 16.3% groundwater over‐exploitation in winter wheat growth period. The corresponding yield was 18.5% and 12.9% less than potential yield for winter wheat and summer maize but using less irrigation water. Therefore, it could be considered that the optimal irrigation was reasonable, which provided beneficial suggestions for increasing efficiency of agricultural water use with sustainable crop yield in Haihe plain. Copyright © 2013 John Wiley & Sons, Ltd.     

Estimate of the alpha parameter in an oat crop under rain‐fed conditions

In this article, we estimated the alpha parameter of the Priestley–Taylor model under rain‐fed conditions. This study was conducted in an oat crop, from 7 September to 22 October 2009, in a region of subhumid plains (Tandil, Argentina). An energy balance station was installed within the experimental field to monitor its development. The alpha parameter value obtained was 1.41 ± 0.01, which led to an overestimation of the evapotranspiration of just 2% and a relative error in estimating evapotranspiration of 8%. The results suggest that the alpha parameter obtained is adequate in estimating the evapotranspiration of oat crops or similar crops in subhumid plains of Buenos Aires, Argentina. Copyright © 2012 John Wiley & Sons, Ltd.     

基于涡度相关的春玉米逐日作物系数及蒸散模拟

作物系数是计算作物蒸散量的关键参数。利用2006—2008年和2011年辽宁锦州玉米农田生态系统的涡度相关、气象、作物发育期及叶面积指数观测数据,分析不受水分胁迫条件下玉米逐日作物系数特征及其与叶面积指数的关系。研究表明:作物系数与玉米农田实际蒸散均呈单峰型变化,约在7月末至8月初达到最大值 (玉米开花吐丝期)。在此基础上,建立了不受水分胁迫条件下玉米逐日作物系数与叶面积指数关系 (达到0.01显著性水平), 同时,采用积温表示的标准化生育期方法模拟相对叶面积指数,并建立了逐日作物系数与相对叶面积指数关系 (达到0.01显著性水平),解决了无叶面积观测地区玉米逐日实际蒸散量的计算。研究结果可为玉米农田用水管理以及灌溉措施的制定提供参考。     

灌溉区与雨养区作物长势差异比较分析——以美国内布拉斯加为例

以美国内布拉斯加为例,按照耕地灌溉比例0%—30%,30%—60%,60%—100%将农业区分为雨养农业区、混合农业区与灌溉农业区,同时筛选丰水年(2008年)、平水年(2005年)、枯水年(2012年),比较相同年份雨养农业区、混合农业区与灌溉农业区的作物长势的峰值特征差异,以及相同农业区在丰水年、平水年、枯水年的长势过程线的相似性,并定量分析作物长势随灌溉百分比的变化规律与趋势。研究表明:(1)相同年份,灌溉农业区作物长势好于混合农业区,混合农业区的作物长势好于雨养农业区,耕地灌溉比例越高,作物长势越好;(2)不同年份的灌溉农业区作物长势差异最小,混合农业区次之,雨养农业区长势差异最大,即耕地灌溉比例越高,作物长势越稳定;(3)枯水年雨养农业区的作物长势过程线与降水过程线同增同减,受灌溉与降水的双重影响,灌溉农业区的作物长势过程线的峰值滞后于降水峰值;丰水年,作物水分胁迫减弱,灌溉农业区、混合农业区与雨养农业区作物长势过程线与降水过程线变化趋势基本一致;(4)作物长势增幅与灌溉百分比之间呈现显著的分段二次函数变化关系,当灌溉百分比增幅小于60%时,作物长势增长幅度逐步加快,当灌溉百分比大于60%时,作物长势增速逐步放缓,在枯水年时,长势随灌溉百分比增加而增长的幅度高于丰水年与枯水年。鉴于不同农业区作物长势差异,作物长势的定量监测需要进一步区分灌溉与雨养农业。     

Landsat8和MODIS融合构建高时空分辨率数据识别秋粮作物

本文利用Wu等人提出的遥感数据时空融合方法 STDFA(Spatial Temporal Data Fusion Approach)以Landsat 8和MODIS为数据源构建高时间、空间分辨率的遥感影像数据。以此为基础,构建15种30 m分辨率分类数据集,然后利用支持向量机SVM(Support Vector Machine)进行秋粮作物识别,验证不同维度分类数据集进行秋粮作物识别的适用性。实验结果显示,不同分类数据集的秋粮作物分类结果均达到了较高的识别精度。综合各项精度指标分析,Red+Phenology数据组合对秋粮识别效果最好,水稻识别的制图精度和用户精度分别达到91.76%和82.49%,玉米识别的制图精度和用户精度分别达到85.80%和74.97%,水稻和玉米识别的总体精度达到86.90%。     

蔬菜作物需水与节水灌溉气象服务

应用联合国粮农组织推荐的计算作物蒸散量的公式,计算了张家口坝上地区蔬菜作物的需水量;通过田间示范得出,膜下滴灌节水效果最好,其次是喷灌、再就是管灌。给出了蔬菜作物的平均需水灌溉量和不同节水模式下的灌溉量,并进行了节水灌溉调控气象服务。结果表明,按照作物需水和气象服务调控灌溉,不用投入资金可节水40%左右;工程节水加作物需水气象服务调控灌溉节水40%~70%。工程节水结合作物需水调控灌溉为最有效最经济的节水灌溉途径。     

DETERMINATION OF AERODYNAMIC PARAMETERS OF CROP CANOPIES WITH A CENTER-OF-PRESSURE METHOD

Using data on leaf area density and wind profiles above and within canopies of wheat,rice,soybean and corn,thecenter-of-pressure method (CPM),originally proposed by Thom (1971),is first validated in the field.Aphysically-based model for directly calculating zero-displacement height (d) is derived.The comparison between thefriction velocity (u_*) estimated with CPM and that with eddy correlation technique shows that CPM not only works wellin the field,but also produces more steady and accurate estimates of aerodynamic parameters (which are hardly affectedby atmospheric thermal stability),than those with the widely-used log-profile fitting method in diabatic atmosphere.The results presented in this paper also demonstrate that the ratios of d,z_0 to crop height h usually vary with canopy ar-chitecture,atmospheric stratification and turbulent exchange intensity,and are not just constants as commonly assumedor used.d/h raises with an increase of relative height of the maximum foliage layer and wind extinction coefficientwithin the canopy.Only for crops with short stem and moderate foliage density,can the relations d= 0.64h,z_0=0.08hkeep stable.In addition,for long stem crops or sparse canopies,the fairly large shear stress at the soil surface and the va-riation of the exponent in the relationship between drag coefficient and wind speed undoubtedly influence the accuracyof CPM to a certain extent.     

旱作物利用地下水的实验研究

本文依据南通农水试验站的实验资料,统计分析旱作物(小麦、棉花)利用地下潜水量的规律,阐述在发展节水灌溉农业中,应考虑旱作物利用地下水量的问题。