滴灌方式对‘赤霞珠’葡萄幼苗根冠功能的调控效应

研究地下穴贮滴灌(自主设计)、膜下滴灌、地表滴灌3种滴灌方式对酿酒葡萄品种‘赤霞珠’幼苗根冠功能的影响.结果表明： 膜下滴灌和地下穴贮滴灌较地表滴灌更促进植株生长,其中地下穴贮滴灌主要促进根系的生长,膜下滴灌主要促进地上部的生长;在20～60 cm土层,地下穴贮滴灌处理根表面积、根体积、根系活力和超氧化物歧化酶活性均高于地表滴灌和膜下滴灌处理,表明地下穴贮滴灌可有效促进根系下扎,提高土壤深层根系的生理活性;同一灌水周期后期地表滴灌处理较早受到干旱胁迫的影响,地下穴贮滴灌和膜下滴灌处理叶片净光合速率(P_n)和气孔导度(g_s)均高于地表滴灌处理,灌水7 d后膜下滴灌处理12:00—14:00实际光化学效率(Φ_PSⅡ)、光化学猝灭系数(q_P)低于地下穴贮滴灌处理,表明叶片荧光日进程中膜下滴灌受到的光抑制程度大于地下穴贮滴灌;对植株根冠功能的相关分析表明,有效增加20~40 cm土层根系的根量指标,保持根系生理活性在较高水平,可促进整体植株地上部生物量的增加和总生物量的积累.综合分析表明,地下穴贮滴灌较膜下滴灌、地表滴灌对植株根冠生长及功能调控有一定优势,可作为果树节水灌溉技术的潜在替代技术.     

滴灌方式对‘赤霞珠’葡萄幼苗根冠功能的调控效应

研究地下穴贮滴灌(自主设计)、膜下滴灌、地表滴灌3种滴灌方式对酿酒葡萄品种‘赤霞珠’幼苗根冠功能的影响.结果表明:膜下滴灌和地下穴贮滴灌较地表滴灌更促进植株生长,其中地下穴贮滴灌主要促进根系的生长,膜下滴灌主要促进地上部的生长;在20～60cm土层,地下穴贮滴灌处理根表面积、根体积、根系活力和超氧化物歧化酶活性均高于地表滴灌和膜下滴灌处理,表明地下穴贮滴灌可有效促进根系下扎,提高土壤深层根系的生理活性;同一灌水周期后期地表滴灌处理较早受到干旱胁迫的影响,地下穴贮滴灌和膜下滴灌处理叶片净光合速率(Pn)和气孔导度(gs)均高于地表滴灌处理,灌水7d后膜下滴灌处理12:00-14:00实际光化学效率(φPSⅡ)、光化学猝灭系数(qP)低于地下穴贮滴灌处理,表明叶片荧光日进程中膜下滴灌受到的光抑制程度大于地下穴贮滴灌;对植株根冠功能的相关分析表明,有效增加20～ 40 cm土层根系的根量指标,保持根系生理活性在较高水平,可促进整体植株地上部生物量的增加和总生物量的积累.综合分析表明,地下穴贮滴灌较膜下滴灌、地表滴灌对植株根冠生长及功能调控有一定优势,可作为果树节水灌溉技术的潜在替代技术.     

陇东旱塬苹果根系分布规律及生理特性对地表覆盖的响应

为探明陇东旱塬区不同覆盖物对苹果园土壤理化性状、根系分布及根系生理活性的影响,以14年生苹果树为试材,采用土壤剖面分层取样法,调查根系空间分布,并对根系生物量、根长、表面积等进行分析,测定根系活力、抗氧化酶类、活性氧代谢等相关生理指标,同时测定不同深度土层土壤容重、孔隙度等.结果表明: 覆草可有效增大土壤含水量、孔隙度、有机质含量,增幅分别为2.7%～11.6%、3.2%～27.7%、5.1%～36.0%,但土壤容重降低,为清耕(CK)的88.7%～96.4%.CK根系主要分布在距树干30～120 cm范围内的0～60 cm深土层中;覆草、覆膜处理主要分布在距树干0～150 cm、0～60 cm水平范围内的0～100 cm深土层中,以20～40 cm根系最为密集;覆膜处理细根总量仅为CK的96.4%,根系水平分布范围较CK有所减小,0～60 cm内细根占根系总量的51.6%.不同覆盖处理显著增强0～80 cm土层根系活力及抗氧化酶活性,其中覆草处理根系活力为CK的111.3%～136.7%.综合分析根系生长分布与生理活性、土壤理化性状等,认为覆草处理是陇东旱塬区苹果园较为适宜的地表覆盖方式.     

滴灌与沟灌栽培杨树人工林土壤水分动态与生产力

在北京大兴区永定河故道沙地上对9年生杨树人工林进行滴灌和沟灌栽培,于根系主要分布土层(20、40、60、80 cm)布设土壤水分传感器并利用智能采集器实时监测土壤含水率,分析不同灌溉措施下的土壤水分动态变化及杨树人工林生产力。结果表明: 单次有效的滴灌和沟灌后,沿树行形成的湿润体垂直深度分别为72和143 cm,湿润体横切面的面积分别为0.41和2.71 m²;灌溉量分别为79.20和776.47 m³·hm^-2,后者为前者的9.8倍,灌溉后杨树吸收根主要分布土层(0～40 cm)的土壤含水率下降到水分轻度亏缺临界值(土壤含水率为田间持水量的70%)的历时均为11 d左右。2019年4—10月,沟灌5、7、9月3次总灌溉量为2329.41 m³·hm^-2;滴灌18次,总灌溉量为1425.60 m³·hm^-2。沟灌下杨树人工林土壤水分中度亏缺(土壤含水率低于田间持水量的60%)累计天数达109 d,而滴灌下的杨树人工林土壤水分始终未发生中度亏缺。滴灌下杨树人工林蓄积年生长量为38.92 m³·hm^-2,是沟灌(25.43 m³·hm^-2)的1.5倍,表明不同灌溉措施下杨树人工林生产力差异显著。     

灌溉探头埋设深度对成龄葡萄生长特性的影响

为探索合理的灌溉土壤水分探头埋设深度,本文利用不同埋深的土壤水分传感器测量土壤水分含量来控制灌溉,研究其对葡萄生长发育的影响,探讨土壤水分传感器的合理埋设深度.结果表明:利用位于地表以下40 cm深处的土壤水分探头(SF40处理)控制灌溉,葡萄的生物学特性、光合作用、产量、水分利用效率高于20 cm埋深控制灌溉处理(SF20处理)和常规沟灌处理(CK);SF40的糖锤度虽然稍低于CK和SF20处理,但也接近20％;SF40处理的灌溉水可以入渗再分布到葡萄树根系的主要分布区域.利用20 cm和40 cm深度土壤水分探头控制灌溉的效果均好于对照,且使用40 cm土壤水分探头来控制研究区成龄葡萄灌溉的效果更好.     

优质鲜食黄肉猕猴桃新品种‘金圆’的选育及特性分析

‘金圆’是以种间杂交品种‘金艳’（Actinidia chinensis×A.eriantha）为母本、中华猕猴桃（A.chinensis Planch.）为父本,从回交F₁代群体中选育出的中熟黄肉猕猴桃新品种。通过对‘金圆’植物学性状、特异性、营养成分、贮藏性等进行研究,结果显示：‘金圆’果实为短圆形,单果重80~100 g,软熟时果肉橙黄色,质细味浓;‘金圆’的花瓣数和花丝数与母本‘金艳’接近,花冠直径和柱头数较‘金艳’分别增大了9.31%和52%,而花柄长度比‘金艳’短16.75%;萌芽率和果枝率略低于‘金艳’,但比‘海沃德’高出55.26%和43.33%;‘金圆’的可溶性固形物、总糖和可滴定酸含量与‘金艳’相当,但维生素C含量比‘金艳’高4.63%,是‘海沃德’的2.2倍;‘金圆’矿质元素含量丰富,P和K含量分别比‘金艳’高30.86%和22.53%,Mg含量比‘海沃德’高24.86%;‘金圆’的总氨基酸含量丰富（8 mg/g）,E/N和E/T值均高于‘金艳’和‘海沃德’,更接近于理想模式;‘金圆’在低温下（1~2℃,相对湿度90%~95%）贮藏150 d时,好果率在80%以上,200 d后,好果率仍有65%,贮藏性略低于‘金艳’,但显著高于‘海沃德’。利用Geo7-223分子标记扩增‘金圆’基因组得到3个条带,表明其与‘金艳’和‘金桃’在分子水平上具有一定差异。本研究表明‘金圆’具有良好的农艺性状和品质特性。     

不同节水灌溉方式对干旱山地板栗生长结实的影响

在山东省泰安市半干旱、半湿润气候区的山地果园,以板栗为试材,研究了陶罐贮水、蓄水穴和畦灌覆盖3种节水灌溉方式下栗园土壤水分特征及对板栗根系、树体生长和结实的影响.结果表明：与畦灌(对照)相比,3种节水灌溉方式均能延长果园土壤保湿时间,其中陶罐贮水处理效果最明显,保湿时间长达32 d,较对照延长13 d.节水处理下,板栗结果枝长度和数量、叶片面积和质量、果前梢混合芽数量等均较对照明显增加.陶罐贮水和蓄水穴处理能对深层土壤根系进行灌溉并诱导深层根系生长,降低了浅层干旱对根系的胁迫.3种节水灌溉均能大幅度提高板栗果实产量,陶罐贮水、蓄水穴和畦灌覆盖处理的产量分别较对照提高18.8%、16.5%和14.2%.     

根系分区交替滴灌对苹果幼苗生理特性和水分利用效率的影响

以矮化红富士苹果幼苗为试验材料,采用交替滴灌(ADI)、固定滴灌(FDI)和常规滴灌(CDI)3种滴灌方式和3种灌水量对苹果幼苗的生理特性和水分利用效率进行了研究,以阐明根系分区交替灌溉下苹果幼苗生理特性和节水机理.结果表明:与CDI方式相比,当灌水定额由20 mm增大到30 mm时,ADI方式提高了苹果幼苗根干重、根系导水率、叶水势和净光合速率,降低了其蒸腾速率、棵间蒸发量和蒸散量,从而使得ADI方式下的叶片水分利用效率、总水分利用效率和灌溉水分利用效率较CDI方式大大提高;3种滴灌方式的根系导水率均存在显著的季节变化,并以8月份最大,12月份最小;与CDI方式相比, ADI和FDI方式在节水达33.3%时的平均根系导水率仅分别降低了5.81%和14.7%,但水分利用效率、灌溉水利用效率分别较CDI方式高出16.31%和14.48%、40.52%和27.65%.可见,局部根区灌溉方式能促进苹果幼苗生长和光合作用,并主要通过提高根系导水率的途径来提高水分利用效率.     

不同灌溉方式下3种土壤微生物活性测定方法比较

探究不同灌溉方式下土壤微生物活性,对维持土壤稳定和提高水资源利用效率具有重要意义。以沈阳农业大学长期定位灌溉试验基地为平台,采用土壤酶活性、土壤呼吸和微量热法,研究节水灌溉组覆膜滴灌、渗灌及对照组沟灌下的土壤微生物活性并比较3种微生物活性测定方法。结果表明:不同灌溉方式下土壤脲酶、转化酶、脱氢酶活性无显著差异,土壤呼吸在3个主要生长季也没有明显变化规律;而微量热法得到的热功率时间曲线呈现了典型的微生物生长特征趋势,覆膜滴灌的生长速率较大,且与沟灌的总热量、最大热功率相差不大。因此,从可持续农业观点出发,覆膜滴灌是保证土壤微生物活性较高的一种节水灌溉方式;微量热法也为传统方法下不易检测的微生物活性提供了新思路。     

三个产地猕猴桃品种‘金梅’在低温贮藏及货架期内的采后生理和品质变化

以湖北武汉、湖南花垣和贵州大方3个不同产地的中华猕猴桃（Actinidia chinensis Planch.）黄肉新品种‘金梅’果实为材料,对‘金梅’果实在低温贮藏和常温货架期内的生理特征和品质变化规律进行研究。结果显示：3个产地‘金梅’的果实硬度均在低温贮藏12周后快速下降至可食用硬度水平;而可溶性固形物含量（SSC）和总糖含量均表现为先快速上升然后稳定在较高水平,其中大方果实的SSC和总糖含量仅低温贮藏3周后就较早上升到稳定水平,但低于武汉和花垣的果实。3地‘金梅’果实中总酸含量则在较小的范围内波动,在武汉、花垣和大方产的软熟果实中含量依次降低。3地‘金梅’果实中维生素C含量约在70~90 mg/100 g鲜重范围内小幅波动,其中花垣‘金梅’维生素C含量整体较低。3地‘金梅’果实在低温贮藏过程中均表现出较高的失重率和较低的腐烂率,其中大方果实失重率低于武汉和花垣,但其较早出现较高的腐烂率。花垣和大方‘金梅’果实在分别低温贮藏4、12、20周后转入到常温货架期的寿命可达4、3、2周之久;其中,大方‘金梅’较早较快软熟,并且其SSC含量明显低于花垣‘金梅’。研究结果表明3地‘金梅’均表现出较好的耐贮性和较长的货架期,其中花垣‘金梅’表现出较好的果实综合品质,可能与其干物质含量较高有关。     

The growth characteristics and yield potential of rice (Oryza sativa) under non‐flooded irrigation in arid region

The objectives of this field experiment were to study the growth characteristics and yield potential of rice plants under non‐flooded irrigation in arid area. Non‐flooded treatments included drip irrigation with plastic mulching treatments (DIs), furrow irrigation with plastic mulching treatment (FIM) and furrow irrigation with non‐mulching treatment (FIN). Conventional flooded cultivation (F) was check treatment (CK). The four drip irrigation treatments differed in the amount of water applied before and after panicle initiation. Root length density, leaf dry weight, shoot dry weight and root activity were generally higher in the non‐flood‐irrigated treatments (especially the drip‐irrigated treatments) than in the flood‐irrigated treatment at mid‐tillering. However, the growth and development of rice plants were limited after jointing in the non‐flooded irrigation treatments. Increasing the root/shoot ratio and root length density in the 20–40 cm depth and decreasing specific root length at 0–20 cm soil layer were important mechanisms for helping the rice plants to adapt to the non‐flooded environmental stresses. Finally, the grain yield in the non‐flooded irrigation treatments was lower than that in the F treatment. These low yields were mainly attributed to the low root length density at 0–20 cm depth and root activity. Generally speaking, the restricted degrees in the DIs were smaller than that in the FIM and FIN treatments. Among the DIs, both the highest grain yield (8223–8900 kg ha^?1) and the highest water use efficiency (WUE) (0.63) were observed when the soil water content was kept at ?30 kPa before panicle initiation and at ?15 kPa after panicle initiation (referred to as the DI2 treatment). The yield in the DI2 treatment was not significantly different than that in the flood‐irrigated treatment. However, WUE was 2.5 times higher in the DI2 treatment than in the F treatment. These results suggest that drip irrigation technology can be considered as a better water‐saving cultivation of rice plants in arid region.     

双元覆盖对果园土壤水分的调控效果

为了研究双元覆盖对渭北旱塬苹果园土壤水分的调控效果,对4个不同处理(地膜压秸秆双元覆盖、地膜覆盖、秸秆覆盖和对照)下的果园0～600 cm土层范围内的土壤水分进行测定,并对果树产量和枝条生长量进行了统计.结果表明: 双元覆盖的整体保墒效果最佳,0～600 cm土壤贮水量比对照高6.7%;长期双元覆盖能够有效地缓解该地区深层土壤出现的干燥化现象,稳定层(240～600 cm)月平均土壤贮水量比对照高64.22 mm;双元覆盖和地膜覆盖两种措施均能降低浅层(0～60 cm)土壤水分随时间的波动,提高浅层土壤水分随时间变化的稳定性;与单一覆盖方式相比,双元覆盖方式更能减小土壤剖面水分垂直变异,提高土壤剖面水分垂直分布的稳定性;双元覆盖方式增产效果明显,苹果产量比对照高48.2%.综上,相对于单一的覆盖方式,双元覆盖能更好地调控果园土壤水分、提高苹果产量.     

地表覆盖对温室黄瓜生长及生理特性的影响

研究了地表覆盖秸秆、地膜和秸秆加膜对日光温室嫁接和非嫁接黄瓜生长与生理特性的影响.结果表明,地表覆盖可有效促进植株生长,嫁接黄瓜覆盖秸秆加膜、地膜与秸秆的株高和茎粗依次比对照增加91、71、57 cm和0127、0.086、0.111 cm,非嫁接黄瓜增幅较小;地表覆盖可增强光合作用,嫁接黄瓜覆盖秸秆加膜、地膜、秸秆的净光合速率分别比对照增加2.63、2.08与1.36 μmol·m^-2·s^-1,非嫁接黄瓜增幅较小;嫁接黄瓜覆盖秸秆加膜和秸秆的叶绿素含量比对照增加1.8%和3.15%,而覆盖地膜的叶绿素含量降低了3.8%,非嫁接黄瓜的叶绿素含量变幅较小;嫁接黄瓜覆盖秸秆加膜、地膜、秸秆的根系活力比对照提高0.98、0.48和0.8 mg TTC·g^-1FW,同一处理的非嫁接黄瓜根系活力增幅较小;地表覆盖可增加单株干物重,提高早期产量和总产量,嫁接黄瓜覆盖秸秆加膜、地膜与秸秆的单株产量比非嫁接黄瓜分别增加16%、5.3%和3.4%.     

不同耕作方式对陇中旱农区春小麦和豌豆根系空间分布及产量的影响

依托陇中旱农区长期的保护性耕作定位试验,对不同耕作方式下春小麦和豌豆根系空间分布特征及作物产量进行研究,以探索耕作措施影响作物产量的机制.结果表明: 随着生育期的推进,春小麦和豌豆的总根长、根表面积呈先增后减的趋势,开花期达到最大;春小麦根系苗期以0～10 cm最多,花期、成熟期10～30 cm最多;而豌豆根系苗期和成熟期均以0～10 cm最多,花期10～30 cm最多.免耕秸秆覆盖和免耕覆膜增加了根长和根表面积,春小麦和豌豆各生育时期的根长较传统耕作增加了35.9%～92.6%,根表面积增加了43.2%～162.4%.免耕秸秆覆盖和免耕覆膜优化了春小麦和豌豆根系分布,与传统耕作相比,增加了春小麦和豌豆苗期0～10 cm土层根长和根表面积分布比例,花期和成熟期深层次根系分布也显著增加,免耕秸秆覆盖在开花期30～80 cm土层根长和根表面积的分布比例分别比传统耕作提高了3.3%和9.7%.春小麦各生育期的总根长、根表面积与产量呈显著正相关,豌豆各生育期的总根长与豌豆产量呈极显著正相关.免耕秸秆覆盖和免耕覆膜较传统耕作春小麦和豌豆产量增加23.4%～38.7%,水分利用效率提高了13.7%～28.5%.在陇中旱农区,免耕秸秆覆盖和免耕覆膜可以增加作物根长和根表面积,优化了根系在土壤中的空间分布,增强作物根层吸收能力,从而提高作物产量和水分高效利用.     

Rice Performance and Water Use Efficiency under Plastic Mulching with Drip Irrigation

Plastic mulching with drip irrigation is a new water-saving rice cultivation technology, but little is known on its productivity and water-saving capacity. This study aimed to assess the production potential, performance, and water use efficiency (WUE) of rice under plastic mulching with drip irrigation. Field experiments were conducted over 2 years with two rice cultivars under different cultivation systems: conventional flooding (CF), non-flooded irrigation incorporating plastic mulching with furrow irrigation (FIM), non-mulching with furrow irrigation (FIN), and plastic mulching with drip irrigation (DI). Compared with the CF treatment, grain yields were reduced by 31.76–52.19% under the DI treatment, by 57.16–61.02% under the FIM treatment, by 74.40–75.73% under the FIN treatment, which were mainly from source limitation, especially a low dry matter accumulation during post-anthesis, in non-flooded irrigation. WUE was the highest in the DI treatment, being 1.52–2.12 times higher than with the CF treatment, 1.35–1.89 times higher than with the FIM treatment, and 2.37–3.78 times higher than with the FIN treatment. The yield contribution from tillers (YCFTs) was 50.65–62.47% for the CF treatment and 12.07–20.62% for the non-flooded irrigation treatments. These low YCFTs values were attributed to the poor performance in tiller panicles rather than the total tiller number. Under non-flooded irrigation, root length was significantly reduced with more roots distributed in deep soil layers compared with the CF treatment; the DI treatment had more roots in the topsoil layer than the FIM and FIN treatments. The experiment demonstrates that the DI treatment has greater water saving capacity and lower yield and economic benefit gaps than the FIM and FIN treatments compared with the CF treatment, and would therefore be a better water-saving technology in areas of water scarcity.     

Tomato root distribution, yield and fruit quality under subsurface drip irrigation

Tomato rooting patterns were evaluated in a 2-year field trial where surface drip irrigation (R0) was compared with subsurface drip irrigation at 20 cm (RI) and 40 cm (RII) depths. Pot-transplanted plants of two processing tomato, `Brigade' (C1) and `H3044' (C2), were used. The behaviour of the root system in response to different irrigation treatments was evaluated through minirhizotrons installed between two plants, in proximity of the plant row. Root length intensity (L _a), length of root per unit of minirhizotron surface area (cm cm^–2) was measured at blooming stage and at harvest. For all sampling dates the depth of the drip irrigation tube, the cultivar and the interaction between treatments did not significantly influence L _a. However differences between irrigation treatments were observed as root distribution along the soil profile and a large concentration of roots at the depth of the irrigation tubes was found. For both surface and subsurface drip irrigation and for both cultivars most of the root system was concentrated in the top 40 cm of the soil profile, where root length density ranged between 0.5 and 1.5 cm cm^–3. Commercial yields (t ha^–1) were 87.6 and 114.2 (R0), 107.5 and 128.1 (RI), 105.0 and 124.8 (RII), for 1997 and 1998, respectively. Differences between the 2 years may be attributed to different climatic conditions. In the second year, although no significant differences were found among treatments, slightly higher values were observed with irrigation tubes at 20 cm depth. Fruit quality was not significantly affected by treatments or by the interaction between irrigation tube depth and cultivar.     

覆盖方式对旱地冬小麦土壤水分的影响

在黄土高原半干旱雨养条件下,研究了不同覆盖方式(夏季覆膜,T₁;秋季覆膜,T₂;小麦碎秆覆盖,T₃;小麦整秆覆盖,T₄;夏季覆膜+麦秆还田,T₅;旧膜二茬利用,T₆;无覆盖对照,CK)对旱地冬小麦土壤水分的影响.结果表明: T₆在各时期、各土层土壤含水量普遍高于CK,其他5个覆盖处理可明显改善开花前0～90 cm土壤墒情,但开花后0～90 cm土层以及全生育期90～200 cm土层含水量普遍低于CK.全生育期0～200 cm土层平均含水量T₆显著高于CK,两者差值为0.9%,其余处理均低于CK.0～200 cm土层平均含水量秸秆覆盖处理高于覆膜处理,旧膜二茬利用高于新覆膜.覆膜处理单位面积籽粒产量较CK提高20.3%～29.0%,秸秆覆盖处理较CK提高5.0%～16.7%,冬小麦产量与生育期耗水量呈显著正相关(r=0.77^*).     

不同沟灌模式对沙漠绿洲区葡萄生长和水分利用的效应

在甘肃河西荒漠绿洲区研究了覆膜与不覆膜条件下隔沟交替灌溉、常规沟灌对葡萄生长和水分利用的影响.结果表明,隔沟交替灌溉可以保证作物一部分根区处于比较湿润状态,另一部分根区处于相对干燥状态,湿润与干燥区域的交替出现可诱导葡萄的补偿生长效应.隔沟交替灌溉条件下葡萄叶片气孔开度减小,光合速率略有降低或下降不显著,而蒸腾速率明显下降,水分利用效率增大.光合作用日变化也表现出类似规律.隔沟交替灌溉与地膜覆盖技术相结合能显著提高水分利用效率,为在田间实施气孔最优化调控提供了一种有效途径.