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水肥耦合对苹果幼树产量、品质和水肥利用的效应 被引量:55
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作者 周罕觅 张富仓 +3 位作者 roger kjelgren 吴立峰 范军亮 向友珍 《农业机械学报》 EI CAS CSCD 北大核心 2015年第12期173-183,共11页
为探明半干旱地区苹果幼树水肥精准管理模式,研究了水肥耦合对3 a生苹果幼树生长、产量、品质及水肥利用的效应,试验设置4个灌水水平,其灌水上下限分别为田间持水率的75%~85%(W1)、65%~75%(W2)、55%~65%(W3)、45%~55%(W4);3个... 为探明半干旱地区苹果幼树水肥精准管理模式,研究了水肥耦合对3 a生苹果幼树生长、产量、品质及水肥利用的效应,试验设置4个灌水水平,其灌水上下限分别为田间持水率的75%~85%(W1)、65%~75%(W2)、55%~65%(W3)、45%~55%(W4);3个施肥水平(N-P2O5-K2O),即高肥:30-30-10 g/株(F1)、中肥:20-20-10 g/株(F2)、低肥:10-10-10 g/株(F3)。结果表明:苹果幼树萌芽开花期至新梢生长期控水控肥可有效调控苹果幼树植株和叶面积的增长;苹果产量最高和最低的处理分别为F1W1和F3W4(F1W1比F3W4增加139.1%),产量与干物质质量间相关关系的决定系数R2为0.908 5,达到了极显著水平;增加灌水量提高了苹果着色指数却降低其果形指数,亏水处理和增加施肥量有利于提高苹果硬度;轻度亏缺(F2)灌溉处理下,增加施肥量有利于提高苹果维生素C含量;灌水量对苹果可溶性固形物和可溶性糖影响不显著,但增加施肥量有利于提高苹果可溶性固形物和可溶性糖的含量;施肥量对苹果可滴定酸和糖酸比影响不显著,但增加灌水量可降低苹果可滴定酸含量,提高苹果糖酸比;高水低肥处理能够产生较高的肥料偏生产力(PFP);水分利用效率(WUE)最大值基本上出现在F2W2处理,与F1W1相比,虽然产量减小7.5%,但耗水量却减小16.7%,WUE增加11.2%,高水高肥的F1W1处理并不能得到最大的WUE,最大的WUE出现在F2W2处理。由此可见,F2W2处理是苹果幼树生长、产量、品质以及水肥利用效率方面的最佳水肥组合,达到了节水、节肥的最佳水肥耦合模式。 展开更多
关键词 苹果树 水肥耦合 产量 果实品质 水分利用效率 肥料偏生产力
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苹果幼树生理特性和水分生产率对水肥的响应研究 被引量:19
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作者 周罕觅 张富仓 +3 位作者 roger kjelgren 吴立峰 高明霞 李志军 《农业机械学报》 EI CAS CSCD 北大核心 2015年第4期77-87,共11页
为探明半干旱地区苹果幼树水肥精准管理模式,研究了苹果幼树生理特性和水分生产率对不同水肥的响应机制,试验设置4个灌水水平,其灌水上下限分别为田间持水率的75%~85%(W1)、65%~75%(W2)、55%~65%(W3)、45%~55%(W4)和3个施... 为探明半干旱地区苹果幼树水肥精准管理模式,研究了苹果幼树生理特性和水分生产率对不同水肥的响应机制,试验设置4个灌水水平,其灌水上下限分别为田间持水率的75%~85%(W1)、65%~75%(W2)、55%~65%(W3)、45%~55%(W4)和3个施肥水平(N-P2O5-K2O),即高肥:0.6-0.6-0.2 g/kg干土(F1)、中肥:0.4-0.4-0.2 g/kg干土(F2)、低肥:0.2-0.2-0.2 g/kg干土(F3)。结果表明:苹果叶片相对含水率和饱和含水率以及叶绿素SPAD值均可以反映土壤水分的亏缺状况;叶片脯氨酸含量最高和最低分别为F1W4和F3W1处理(F1W4比F3W1增加440.8%),丙二醛含量最高和最低分别为F3W4和F1W1处理(F3W4比F1W1增加167%);叶片水分利用效率(WUE)最大值出现在F2W2处理,与F1W1相比,其净光合速率Pn、蒸腾速率Tr、气孔导度Gs分别减小了18.8%、29.1%、23.2%,但WUE却增加了14.2%;水分生产率(CWP)最大值也基本上出现在F2W2处理,与F1W1相比,虽然其干物质质量减少了5.2%,但耗水量却减少了16.4%,CWP增加了13.4%;叶片水分利用效率在一定程度上能够反映其水分生产率,F2W2处理为节水、节肥的最佳水肥耦合模式。 展开更多
关键词 苹果树 水肥 生理 光合 水分利用效率 水分生产率
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土壤水分有效性对梨枣叶片光合参数和抗旱性的影响 被引量:12
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作者 刘倩 张国壮 +3 位作者 李海超 孙永林 roger kjelgren 刘西平 《干旱地区农业研究》 CSCD 北大核心 2015年第1期1-6,共6页
利用自动称量和补水系统,对三年生梨枣树进行适宜水分、轻度和重度干旱三种土壤水分处理(土壤含水量分别为田间持水量的75%±5%、60%±5%和45%±5%),旨在探究不同土壤水分对梨枣叶片光合参数和抗旱性的影响。结果表明:(1)... 利用自动称量和补水系统,对三年生梨枣树进行适宜水分、轻度和重度干旱三种土壤水分处理(土壤含水量分别为田间持水量的75%±5%、60%±5%和45%±5%),旨在探究不同土壤水分对梨枣叶片光合参数和抗旱性的影响。结果表明:(1)轻度干旱对梨枣叶片的光合参数没有显著影响,但重度干旱引起净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)、胞间CO2浓度(Ci)和光能利用率(LUE)明显降低,而水分利用效率(WUE)和气孔限制值(Ls)增加。(2)轻度干旱对梨枣叶片丙二醛(MDA)含量影响不大,过氧化氢酶(CAT)活性则显著上升;而重度干旱下MDA含量显著上升,同时超氧化物歧化酶(SOD)和过氧化物酶(POD)活性以及抗坏血酸(ASA)和还原型谷胱甘肽(GSH)含量明显升高,但仍不能消除重度干旱对梨枣叶片膜系统造成的严重伤害。因此,轻度干旱并未引发梨枣叶片显著的生物学胁迫,而在重度干旱条件下梨枣叶片的光合能力和膜系统均受到严重影响。 展开更多
关键词 梨枣树 土壤水分 光合作用 抗旱性
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Peach yield and fruit quality is maintained under mild deficit irrigation in semi-arid China 被引量:8
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作者 ZHOU Han-mi ZHANG Fu-cang +6 位作者 roger kjelgren WU Li-feng GONG Dao-zhi ZHAO Na YIN Dong-xue XIANG You-zhen LI Zhi-jun 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2017年第5期1173-1183,共11页
We conducted a two-year study of deficit irrigation impact on peach yield and quality in semi-arid northwest China. Over two years, four-year-old peach trees were irrigated at 100, 75, 50 and 25% of peach evapotranspi... We conducted a two-year study of deficit irrigation impact on peach yield and quality in semi-arid northwest China. Over two years, four-year-old peach trees were irrigated at 100, 75, 50 and 25% of peach evapotranspiration (ETc), here, ETc= Coefficient (Kc)×Local reference evapotranspiration (ET0). During the April-July fruit production season we measured root zone soil water depletion, sap flow velocity, net photosynthetic rate (Pn), transpiration rate (Tr), stomatal conductance (Gs), water use efficiency (WUE=Pn/Tr), fruit quality, and yield under a mobile rain-out shelter. Increased soil water depletion reasonably mirrored decreasing irrigation rates both years, causing progressively greater water stress. Progressive water stress lowered Gs, which in turn translated into lower T as measured by sap flow. However, mild deficit irrigation (75% ETc) constricted T more than Pn. Pn was not different between 100 and 75% ETc treatments in both years, and it decreased only 5-8% in June with higher temperature than that in May with cooler temperature. Concurrently under 75% ETc treatment, was reduced, and WUE was up to 13% higher than that under 100% ETc treatment. While total fruit yield was not different under the two treatments, because 75% ETc treatment had fewer but larger fruit than 100% ETc trees, suggesting mild water stress thinned fruit load. By contrast, sharply decreased T and Pn of the driest treatments (50 and 25% ETo) increased WUE, but less carbon uptake impacted total fruit yield, resulting 13 and 33% lower yield compared to that of 100% ETc treatment. Irrigation rates affected fruit quality, particularly between the 100 and 75% ETc trees. Fewer but larger fruit in the mildly water stressed trees (75% ETc) resulted in more soluble solids and vitamin C, firmer fruit, and improved sugar:acid ratio and fruit color compared to the 100% ETo treatment. Overall, trees deficit irrigated at 75% ETc maintained yield while improving fruit quality and using less water. 展开更多
关键词 PEACH deficit irrigation fruit quality YIELD sap flow velocity net photosynthetic rate (Pn)
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Water Use of Juvenile Live Oak (<i>Quercus virginiana</i>) Trees over Five Years in a Humid Climate
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作者 Richard C. Beeson Hang Thi Thu Duong roger kjelgren 《Open Journal of Forestry》 2018年第1期1-14,共14页
To meet minimum spring flows, water management districts in Florida sought to make both agriculture and urban landscapes water efficient, which includes tree farms. Quercus virginiana, commonly known as live oak trees... To meet minimum spring flows, water management districts in Florida sought to make both agriculture and urban landscapes water efficient, which includes tree farms. Quercus virginiana, commonly known as live oak trees, is endemic to Central Florida and among the most popular landscape trees for their gracefulness and spreading shade. To provide a basis for irrigation allocations both during production and in landscapes, daily actual evapotranspiration (ETA) in liters for three live oak trees was measured with weighing lysimeters over five years, beginning with seedlings and continuing until trees averaged 7.2 meters in height. Empirical models were derived to calculate ETA based on crown horizontal projected area (PCA) or trunk caliper (TCSA), adjusted daily by changes in evapotranspiration (ETO). Average ETA to produce these live oaks was 62,218 L cumulative over 5.5 years. Effectively transpiring leaf, tree water use volume divided by ETO, was closely related to PCA over five years with the slope of this relationship being equivalent to a Plant Factor of 0.93. The product of ETO and this Plant Factor can be used to estimate depth of live oak water demand in urban landscapes. Also, this Plant Factor can estimate water demand volume in nurseries and landscapes when combined with PCA, and similarly the slopes for TCSA can be used to estimate ETA water volume from measured trunk diameter. 展开更多
关键词 QUERCUS virginiana IRRIGATION Scheduling IRRIGATION Modelling Container Production Landscape IRRIGATION
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美国海滨桤木和薄叶桤木水分生理特性的比较 被引量:4
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作者 李秀媛 刘西平 +1 位作者 Hang DUONG roger kjelgren 《植物生态学报》 CAS CSCD 北大核心 2011年第1期73-81,共9页
采取盆栽、人工控水的方式,研究并比较了美国本土海滨桤木(Alnus maritima)和薄叶桤木(A.incana)的气孔导度(Gs)、叶片水势(ψleaf)以及渗透调节能力对土壤水分条件的响应,以探讨引起两种桤木生态分布差异巨大的生理生态原因。结果表明... 采取盆栽、人工控水的方式,研究并比较了美国本土海滨桤木(Alnus maritima)和薄叶桤木(A.incana)的气孔导度(Gs)、叶片水势(ψleaf)以及渗透调节能力对土壤水分条件的响应,以探讨引起两种桤木生态分布差异巨大的生理生态原因。结果表明:1)正常水分条件下,海滨桤木的Gs低于薄叶桤木,其与大气温度、相对湿度和水蒸气亏缺等气象因子的相关性低于薄叶桤木;干旱胁迫下,海滨桤木的Gs对其自身ψleaf下降信号的敏感度低于薄叶桤木;复水后,其Gs恢复更为缓慢。2)正常水分条件下,海滨桤木的ψleaf高于薄叶桤木,且引起气孔关闭的ψleaf临界值较高;干旱胁迫下,海滨桤木的ψleaf下降幅度高于薄叶桤木。3)正常水分条件下,海滨桤木和薄叶桤木的渗透调节能力无显著差异;干旱胁迫下,尽管两种桤木均表现出饱和状态渗透势(ψssat)下降、膨压与水势关系的最大变化率降低、初始失膨点渗透势(ψstlp)增加、细胞渗透调节能力范围(ψssat–ψstlp,Dψs减小的趋势,但与薄叶桤木相比,海滨桤木的ψstlp较高,Dψs较小。从以上生理生态指标可以看出,较高的叶片水势、较低的气孔调节能力、干旱下较低的渗透调节能力是造成海滨桤木分布范围狭小的重要原因。 展开更多
关键词 桤木 生态分布 叶片水势 渗透调节 气孔导度
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Effects of soil water and nitrogen availability on photosynthesis and water use efficiency of Robinia pseudoacacia seedlings 被引量:16
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作者 Xiping Liu Yangyang Fan +4 位作者 Junxia Long Ruifeng Wei roger kjelgren Chunmei Gong Jun Zhao 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2013年第3期585-595,共11页
The efficient use of water and nitrogen (N) to promote growth and increase yield of fruit trees and crops is well studied.However,little is known about their effects on woody plants growing in arid and semiarid area... The efficient use of water and nitrogen (N) to promote growth and increase yield of fruit trees and crops is well studied.However,little is known about their effects on woody plants growing in arid and semiarid areas with limited water and N availability.To examine the effects of water and N supply on early growth and water use efficiency (WUE) of trees on dry soils,one-year-old seedlings of Robinia pseudoacacia were exposed to three soil water contents (non-limiting,medium drought,and severe drought) as well as to low and high N levels,for four months.Photosynthetic parameters,leaf instantaneous WUE (WUEi) and whole tree WUE (WUEb) were determined.Results showed that,independent of N levels,increasing soil water content enhanced the tree transpiration rate (Tr),stomatal conductance (Gs),intercellular CO2 concentration (Ci),maximum net assimilation rate (Amax),apparent quantum yield (AQY),the range of photosynthetically active radiation (PAR) due to both reduced light compensation point and enhanced light saturation point,and dark respiration rate (Rd),resulting in a higher net photosynthetic rate (Pn) and a significantly increased whole tree biomass.Consequently,WUEi and WUEb were reduced at low N,whereas WUE i was enhanced at high N levels.Irrespective of soil water availability,N supply enhanced Pn in association with an increase of Gs and Ci and a decrease of the stomatal limitation value (Ls),while Tr remained unchanged.Biomass and WUEi increased under non-limiting water conditions and medium drought,as well as WUEb under all water conditions;but under severe drought,WUEi and biomass were not affected by N application.In conclusion,increasing soil water availability improves photosynthetic capacity and biomass accumulation under low and high N levels,but its effects on WUE vary with soil N levels.N supply increased Pn and WUE,but under severe drought,N supply did not enhance WUEi and biomass. 展开更多
关键词 drought nitrogen photosynthesis water use efficiency Robinia pseudoacacia
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