Impact of land‐use intensity on the relationships between vegetation indices,photosynthesis and biomass of intensively and extensively managed grassland fens

Vegetation indices are widely used as model inputs and for non‐destructive estimation of biomass and photosynthesis, but there have been few validation studies of the underlying relationships. To test their applicability on temperate fens and the impact of management intensity, we investigated the relationships between normalized difference vegetation index (NDVI), leaf area index (LAI), brown and green above‐ground biomass and photosynthesis potential (PP). Only the linear relationship between NDVI and PP was management independent (R² = 0·53). LAI to PP was described by a site‐specific and negative logarithmic function (R² = 0·07–0·68). The hyperbolic relationship of LAI versus NDVI showed a high residual standard error (s.e.) of 1·71–1·84 and differed between extensive and intensive meadows. Biomass and LAI correlated poorly (R² = 0·30), with high species‐specific variability. Intensive meadows had a higher ratio of LAI to biomass than extensive grasslands. The fraction of green to total biomass versus NDVI showed considerable noise (s.e. = 0·13). These relationships were relatively weak compared with results from other ecosystems. A likely explanation could be the high amount of standing litter, which was unevenly distributed within the vegetation canopy depending on the season and on the timing of cutting events. Our results show there is high uncertainty in the application of the relationships on temperate fen meadows. For reliable estimations, management intensity needs to be taken into account and several direct measurements throughout the year are required for site‐specific correction of the relationships, especially under extensive management. Using NDVI instead of LAI could reduce uncertainty in photosynthesis models.     

基于Meta分析评价秸秆覆盖对我国北方半干旱区不同生态区域小麦产量的影响

为了明确秸秆覆盖对我国北方半干旱区不同降雨量和积温条件下小麦产量的影响,利用Meta定量分析方法分析秸秆覆盖和不同秸秆覆盖量对我国北方半干旱区不同降雨量和积温条件下小麦产量的影响。以“半干旱区”、“秸秆覆盖”和“小麦产量”为关键词搜集、筛选并整理1970-2019年公开发表的相关文献,建立综合文献数据库。分析秸秆覆盖、不同秸秆覆盖量、不同年均降雨量和不同年均积温与小麦产量的关系。结果表明,秸秆覆盖可以增加北方半干旱区不同降雨量和积温区域的小麦产量,主要通过增加有效穗数使小麦平均增产12.77%;当秸秆覆盖量为6 000~9 000kg/hm ²时,小麦增产率最高,为14.49%（9.01%~20.52%,CI>95%）;当年均降雨量为200~400mm时,小麦增产率最高,为19.36%（9.86%~28.49%,CI>95%）;当年均积温为0℃~3 000℃时,小麦增产率最高,为19.56%（16.36%~22.39%,CI>95%）。此研究结果可为我国北方半干旱区不同降雨量和积温区域采用秸秆覆盖技术栽培小麦提供理论依据。     

栽植密度对不同种源芡实生长的影响

对不同栽植密度条件下,不同种源地芡实的生长情况进行了调查研究,结果表明:不同栽植密度间芡实的叶均直径、叶最大直径、果径、果长、果质量、粒数、粒质量均无明显差异,不同栽植密度间产量存在差异;不同种源地间8项物理性状指标均无明显差异;除果长与栽植密度的交互作用对产量无影响外,其余6种性状与栽植密度的交互作用均存在差异,表明交互作用对产量有影响。7种性状与种源地的交互作用下,种源地与产量间的关联不大。     

油菜覆膜打孔穴播机打孔装置设计与试验

为实现油菜等小粒径作物覆膜种植中膜上均匀打孔的功能,针对传统膜上成穴装置结构庞大复杂、工作时易黏土挑种及撕挑地膜等问题,设计了一种法兰式滚轮与螺纹式圆锥型锥钉组合式结构的打孔装置,确定了其主要结构参数范围;构建了打孔装置运动学模型,分析了打孔锥钉关键点的运动轨迹,确定了膜上打孔过程,并基于轨迹方程分析了膜孔尺寸参数;运用ADAMS运动学仿真,采用四因素三水平正交试验方法,以打孔锥钉顶角、打孔锥钉直径、打孔滚轮半径、机组前进速度为试验因素,以膜孔长度、膜孔间距偏差为试验考核指标,进行了打孔装置结构和运动参数的仿真试验。仿真结果表明:影响膜孔长度的因素主次顺序为打孔滚轮半径、打孔锥钉顶角、打孔锥钉直径、机组前进速度;影响膜孔间距偏差的因素主次顺序为打孔滚轮半径、机组前进速度、打孔锥钉顶角、打孔锥钉直径;基于参数优化,获得较优参数组合为:打孔锥钉顶角53°、打孔锥钉直径16 mm、打孔滚轮半径65 mm、机组前进速度4 km/h。以打孔装置较优结构参数组合进行了田间验证试验,结果表明:打孔装置所打膜孔形状较规则,普遍呈类圆形状,膜孔长度均在18 mm以上,膜孔间距较为均匀,与仿真结果基本一致;各行膜孔长度一致性变异系数为4.98%,各行膜孔间距均匀性变异系数为3.44%。结果表明试验参数组合选取合理,打孔装置符合设计要求。     

春大豆鼓粒期冠层翻叶原因及翻叶对叶片净光合速率和粒重的影响

为明确春大豆鼓粒期冠层翻叶原因及翻叶对粒重的影响。在大田条件下,以28份大豆品种为材料,采用随机区组试验设计,研究了鼓粒初期植株顶部4片叶的单叶面积、比叶重、叶型指数、叶片含水量与翻叶率的关系;比较了翻叶与对照叶片的净光合速率、百粒重及粒重的差异。结果表明,不同大豆品种间翻叶率在0~26.5%之间,且差异显著,其中以‘中黄313’、‘中黄42’和‘中黄13’最高;单叶面积在46~151 cm²之间,其中以‘中黄39’、‘中黄42’和‘中黄13’最大;比叶重在0.536~1.64 mg/cm²之间,其中以‘中黄322’、‘中黄313’和‘中黄13’最低;叶型指数在1.35~3.51之间,其中以‘中黄70’、‘中黄80’和‘中黄42’最低。供试大豆品种分为3个类群,第I类群品种单叶面积小,比叶重高,叶型指数大,翻叶率为1.03%;第III类群品种单叶面积大,比叶重小,翻叶率高达19.7%;第II类群共4个品种,单叶面积、比叶重、叶型指数、翻叶率介于第I类和第III类群之间。翻叶后显著降低叶片净光合速率,平均降幅31.7%,粒数较多的‘新大豆27号’百粒重降低10.38%~22.4%,而粒数少的‘吉育60’粒重没有降低。大豆上层叶片单叶面积大、比叶重小及叶型指数低的叶片翻叶率高,翻叶降低叶片净光合速率,进而降低同节位百粒重及单节粒重,不利于大豆高产。     

基于土壤水分下限的宁夏枸杞滴灌灌溉制度试验研究

以宁杞7号枸杞为研究对象,在宁夏同心县开展2 a田间试验.设置4个关键控水期、3个控水水平共8个处理,研究枸杞不同生育期不同水分下限条件下根区土壤含水率、叶片光合生理指标、产量与品质变化;分析其耗水规律与水分利用效率,提出基于土壤水分下限的宁夏枸杞滴灌灌溉制度.结果表明:不同水分处理枸杞根区20~60 cm土层土壤含水率最大;叶片气孔导度随土壤下限升高而增大,高水分下限处理的蒸腾速率相对较大,叶片水分利用效率则相反;生育期耗水量随土壤水分下限升高而增大,2 a增幅分别为10.8%和12.8%,平均耗水量为386.6~463.2 mm,夏果期耗水量最大且差异具有统计学意义,是关键需水期.2 a均为处理S5的产量最大分别为2 208.15和2 571.30 kg/hm²,水分利用效率最高为0.39 kg/m³;水分处理对蛋白质含量影响差异不具有统计学意义,低土壤水分下限的枸杞多糖含量相对较高;全生育期分为6个灌水期,其中萌芽期灌水(春水)为375 m³/hm²;春梢生长期、花期、夏果期、秋果期的土壤质量含水率下限分别为50%θ_f(θ_f为田间持水率),65%θ_f,65%θ_f,55%θ_f,而上限为95%θ_f;休眠期冬灌量为450 m³/hm².     

不同油葵种植方式对银北灌区盐碱地土壤温度、含水率和电导率的影响

为了探究油葵不同种植方式对盐碱地土壤水、热、盐分布状况的影响,以平播（T1）为对照,开展了半膜平播（T2）、半膜平播+膜间覆秸秆（T3）、起垄沟播（T4）、起垄沟播+沟覆秸秆（T5）、垄膜沟播（T6）、垄膜沟播+沟覆秸秆（T7）等6种种植方式对油葵田土壤温度、水分和电导率的影响研究。结果表明：与对照相比,不同种植方式均提高了早上7:00时5cm深度的土温,但油葵花期土壤增温效果明显弱于苗期,垄膜沟播种植方式更有利于减缓地 表5cm深度土温的剧烈变化。与对照相比,在油葵苗期,T7和T6的0~20cm土层土壤含水率分别提高了6.30%和5.01%,20~40cm土层分别提高了6.00%和3.38%,在油葵开花期,土壤含水率较对照提高幅度有所降低。与播种前0~20cm土层土壤电导率相比,T6在苗期和开花期均有所下降,其中开花期下降了33.81%,T7在苗期略有增加,在开花期则略有下降,其他处理在苗期增加幅度较大。因此,在银北灌区油葵生产中,垄膜沟播是一种适宜的油葵种植方式。     

Determination of critical nitrogen dilution curve based on leaf area index for winter wheat in the Guanzhong Plain,Northwest China

Excessive use of nitrogen(N) fertilizers in agricultural systems increases the cost of production and risk of environmental pollution. Therefore, determination of optimum N requirements for plant growth is necessary. Previous studies mostly established critical N dilution curves based on aboveground dry matter(DM) or leaf dry matter(LDM) and stem dry matter(SDM), to diagnose the N nutrition status of the whole plant. As these methods are time consuming, we investigated the more rapidly determined leaf area index(LAI) method to establish the critical nitrogen(N_c) dilution curve, and the curve was used to diagnose plant N status for winter wheat in Guanzhong Plain in Northwest China. Field experiments were conducted using four N fertilization levels(0, 105, 210 and 315 kg ha-1) applied to six wheat cultivars in the 2013–2014 and 2014–2015 growing seasons. LAI, DM, plant N concentration(PNC) and grain yield were determined. Data points from four cultivars were used for establishing the N_c curve and data points from the remaining two cultivars were used for validating the curve. The N_c dilution curve was validated for N-limiting and non-N-limiting growth conditions and there was good agreement between estimated and observed values. The N nutrition index(NNI) ranged from 0.41 to 1.25 and the accumulated plant N deficit(N_(and)) ranged from 60.38 to –17.92 kg ha~(-1) during the growing season. The relative grain yield was significantly affected by NNI and was adequately described with a parabolic function. The N_c curve based on LAI can be adopted as an alternative and more rapid approach to diagnose plant N status to support N fertilization decisions during the vegetative growth of winter wheat in Guanzhong Plain in Northwest China.     

宁南山区经济林降雨集流机理试验研究

[目的]探究宁夏回族自治区固原市原州区彭堡镇红梅杏经济林降雨集流渗灌系统的雨水收集能力,明确当地红梅杏经济林降雨分配特征,为降雨集流的定量研究和该地区集雨农业的发展提供科学依据。[方法]以当地红梅杏为研究对象,采用对比观测的方法,以天然降雨和人工模拟降雨相结合的方式,对红梅杏降雨集流过程进行观测与模拟。[结果] 2019年7—9月在彭堡红梅杏基地观测到的总计19场降雨数据,天然降雨中5 mm以下的降雨次数占到天然降雨总次数的83.3%,天然降雨与人工模拟降雨的相似系数为0.91,总体的集流率为61.29%,渗灌系统截留率为27.12%,林冠截留率为11.95%。[结论]试验地小降雨频率大,两种降雨方式具有较高相似性,降雨集流渗灌系统集流效率高,渗灌系统的集流量与降雨量成线性关系(R~2=0.995 5),集流率与降雨量成对数关系(R~2=0.693 9)。     

基于USLE模型的长株潭城市群生态绿心区水土流失研究

[目的]研究2018年长株潭(长沙市—株州市—湘潭市)城市群生态绿心区最佳植被覆盖和水土流失状况,为区域综合治理提供理论依据。[方法]运用GIS和RS技术,以长株潭区域降雨、土壤、地形、土地利用等数据为基础,采用归一化植被指数(NDVI)模型和USLE国际通用土壤流失方程为优选模型。[结果]长株潭绿心区总面积为52 287 hm~2,整体植被状况较好,高覆盖度(75%～100%)面积最大,占绿心区总面积一半以上,为26 598.40 hm~2;中低覆盖度(30%～40%)面积最小,占区域总面积的8.61%,为4 501.91 hm~2。长株潭城市群生态绿心区总侵蚀(不含微度)面积为3 654.24 hm~2,占总面积的6.99%。湘潭市侵蚀比重最高,为8.51%,长沙市次之,为6.67%,株洲市侵蚀总比例最小,为5.68%。工程建设用地在禁止开发区、限制开发区和控制建设区的侵蚀面积分别为963.92,310.74,735.11 hm~2。[结论]受人为因素、城市建设、产业分布等影响,长株潭城市群生态绿心区覆盖度空间呈现西部低,中东部高的格局,工程建设是造成绿心区土壤侵蚀的主要原因。