水溶肥施肥模式对‘夏黑’葡萄园土壤性质及果实品质的影响

采用田间试验研究了水溶肥施肥模式(WFM)对‘夏黑’葡萄园土壤性质及果实品质的影响,为葡萄园科学合理施肥提供依据。结果表明,与常规施肥相比,水溶肥施肥模式提高了土壤有机质、果实全氮和全钙含量,果实可溶性固形物、维生素C含量分别提高1.2~1.3个百分点、4.1%~9.8%。综合来看,水溶肥施肥模式能提高葡萄果实品质,值得在葡萄生产中推广应用。

低温结合壳聚糖涂膜对‘夏黑’葡萄贮藏品质的影响

在(2±1)℃、相对湿度80%—85%的贮藏条件下,研究不同浓度壳聚糖(1%、2%和3%)涂膜‘夏黑’葡萄对其感官品质、营养品质及抗氧化物质含量的影响。结果表明:低温结合壳聚糖涂膜保鲜‘夏黑’葡萄效果较好,能够较好地保持其果粒硬度,明显降低葡萄掉粒率和腐烂率,有效维持其较高的营养物质含量。其中,2%壳聚糖处理保鲜效果最好,贮藏第5周,果粒硬度为(8.45±0.81)kg∕cm2,掉粒率和腐烂率分别为(13.39±0.88)%和(10.05±1.36)%,可溶性固形物、可溶性蛋白、可溶性糖、可滴定酸等营养物质含量均维持在较高水平,黄酮含量比CK组高13.84%,较好地保持了其抗氧化能力。

叶面喷施磷肥对‘夏黑’葡萄生长发育的影响

在‘夏黑’葡萄盛花期和果实膨大期喷施不同浓度的4种磷肥,10 d后测定第9、10节位上叶片的叶绿素含量、新梢增长量和叶片增长率,坐果后计算坐果率。结果表明:喷施磷肥对‘夏黑’葡萄的新梢增长率、叶片增长率、叶绿素的增长、坐果率都有不同程度的促进效果,其中果实膨大期喷施磷肥的效果比盛花期喷施磷肥效果好。4种磷肥中KH2PO4的效果最佳,Na3PO4效果最差。

摘心对一年两收栽培‘夏黑’葡萄不同节位冬芽花芽分化的影响

【目的】探讨夏季不同强度摘心对一年两收栽培‘夏黑’葡萄不同节位冬芽花芽分化的影响和确定适合一年两收栽培两代不同堂模式下‘夏黑’葡萄冬果修剪的最佳节位。【方法】以8 a生‘夏黑’葡萄为试材,设置花上2、4、6片叶摘心处理,不摘心为对照,从新梢5~7片叶展叶开始到果实成熟期,分别取各处理新梢第4、5、6、7、8、9节位的芽制作石蜡切片,观察并统计各处理各节位冬芽花芽分化进程的变化和成花率。【结果】不同强度摘心处理和对照的花芽分化起始时间基本一致,冬芽大量进入花原始体发育期均为初花期前后;3个摘心处理冬芽花芽分化开始大量进入花穗发育时期为盛花期前后,对照为果实膨大初期,3个摘心处理从进入花原始体发育期到花穗发育期经历时间比对照缩短了15~31 d。各处理及对照葡萄均为新梢中部节位(4~6节位)冬芽花芽分花能力较好。3个摘心处理各节位冬芽的成花率均显著高于对照。花上4片叶和6片叶摘心处理第4~6节位冬芽的成花率均大于75%,比对照高31.2%~48.9%,2个处理第6节位冬芽从花芽分化起始到进入花穗发育期经历的时间为29 d,比第4、5节位少8 d。【结论】生产上可以通过花上4或6片叶摘心促进‘夏黑’葡萄成花,冬果修剪节位宜选择第6节位。

烯效唑对‘夏黑’葡萄生理特性及品质的影响

试验以3年生‘夏黑’葡萄为试验材料,分别在开花期、坐果期、果实膨大期、转色期用不同浓度(0、30、60、90、120 mg/L)的烯效唑进行全树喷施,研究其对‘夏黑’葡萄生理特性和品质的影响。结果表明,随着烯效唑浓度的增加‘夏黑’葡萄脯氨酸含量(Pro)、可溶性蛋白含量(SP)、过氧化物酶活性(POD)、超氧化物歧化酶活性(SOD)、过氧化氢酶活性(CAT)呈现‘先升后降’,在T3处理时达到最大值,而电导率(REC)和丙二醛含量(MDA)呈现‘先降后升’,分别在T2和T3时降低最明显;在品质方面,T2与T3处理显著增加了单穗重、可溶性固形物含量、固酸比、果实可溶性蛋白含量、花青素含量、Vc含量,同时降低了果实总酸含量、果实硬度、类黄酮含量。各浓度烯效唑处理对单粒重、果实纵横径、果形指数、总酚含量有所增加,但差异性不显著(P>0.05)。另外,高浓度烯效唑(T4)会降低单穗重和单粒重。由主成分分析可知,各处理的综合评价排名依次为T2>T3>T1>T4>CK。以上结果表明,喷施60 mg/L的烯效唑对于提高‘夏黑’葡萄生理活性和果实品质的综合效果最好。

富硒‘夏黑’葡萄栽培技术规程

根据‘夏黑’葡萄的生长发育特点,总结出绿色富硒‘夏黑’栽培技术规程,包括立地条件、架式、生产设施、整地、栽培要求、水肥管理、整形修剪、花果管理及综合防治等方面。

设施栽培‘夏黑’葡萄控产提质技术集成

‘夏黑’葡萄要实现其优良的特征和性状,需按照“稳产、适产、精品、节本、安全”栽培新理念实施,以“稳产”为关键,“精品”为核心,并做好肥水管理、稳定中端树势、喷好药剂促上色,生产出颜色紫黑、风味浓甜的‘夏黑,葡萄。

多壁碳纳米管对‘夏黑’葡萄果实品质及着色的影响

以九年生‘夏黑’葡萄为试材,采用多壁碳纳米管(MWCNTs)对‘夏黑’葡萄叶面以及果实表面进行喷施的方法,分别设置0 mg·L^(-1)(CK)、4 mg·L^(-1)(M1)、8 mg·L^(-1)(M2)、12 mg·L^(-1)(M3)MWCNTs 4个处理,研究了MWCNTs对‘夏黑’葡萄果实品质的影响,筛选出提高‘夏黑’葡萄果实品质的最佳MWCNTs浓度,以期为纳米材料在葡萄生产中的应用提供参考依据。结果表明:MWCNTs显著提高了葡萄果实质量、纵径。处理后第35天,M1、M2、M3处理的果实色泽指数(CIRG)、固酸比、花色苷含量、苯丙氨酸裂解酶(PAL)及查尔酮异构酶(CHI)活性均高于CK,果皮叶绿素含量及可滴定酸含量低于CK。处理后第35天,M2处理的果实色泽指数、可溶性固形物含量、pH、固酸比、花色苷含量、PAL活性、CHI活性均显著高于CK 7.7%、5.9%、3.8%、26.6%、19.7%、25.22%、16.55%;可滴定酸含量、叶绿素含量分别比CK低16%、16%。综合得分表明M2>M1>M3>CK。对‘夏黑’葡萄喷施8 mg·L^(-1)MWCNTs(M2)对其综合品质提升效果最好。

叶面肥替代植物生长调节剂对葡萄产量及品质的效果研究

在种植葡萄时常使用植物生长调节剂来促进果实膨大、增加产量,但是过量使用会导致果实品质下降。为探究替代植物生长调节剂使葡萄增产的方式,在葡萄不同生长期,对‘夏黑’‘阳光玫瑰’2个品种喷施阿米卡叶面肥和氯吡脲(一种生长调节剂)处理,调查葡萄的果实品质和产量。结果表明,喷施阿米卡叶面肥和氯吡脲处理能够促进葡萄果粒增大,提高产量,两者在‘夏黑’葡萄上增产差异不大,而在‘阳光玫瑰’葡萄上氯吡脲处理增产效果更明显。两个处理均会导致可溶性糖含量的下降,喷施阿米卡叶面肥可以降低可溶性酸含量,提高VC含量,提升葡萄的风味品质和营养价值,但氯吡脲处理会导致葡萄可溶性酸含量增加,影响葡萄的口感。总的来说,在‘阳光玫瑰’葡萄生产中与氯吡脲处理相比,喷施阿米卡叶面肥效果不显著,但在‘夏黑’葡萄生产中可以通过喷施阿米卡叶面肥来代替氯吡脲处理,达到提质增产的效果。

赤霉酸和氯吡脲处理对‘户太8号’和‘夏黑’葡萄果实品质的影响

以‘户太8号’和‘夏黑’葡萄为试材,前者采用11组赤霉酸(GA_(3))和氯吡脲(CPPU)进行处理,后者采用8组处理,均以清水为对照,研究了不同GA_(3)和CPPU处理下葡萄的外观形状和内在品质,以期为生产优质、健康的葡萄提供参考依据。结果表明:GA_(3)和CPPU处理的单果质量为6.00~12.00g(对照为3.00g左右)、果形指数1.05~1.25(对照小于1.05)、果皮硬度7.50~11.00N(对照小于7.00N);果面色泽均显著增强;‘户太8号’葡萄的可溶性固形物、总酸含量以及固酸比无明显规律性差异;‘夏黑’葡萄的可溶性固形物含量、固酸比明显增加;果实中酒石酸含量减少、L-苹果酸含量增加。综合分析可得,‘户太8号’葡萄最佳处理为花期1~3d浸蘸25mg·L^(-1) GA_(3),10~15d后再次浸蘸50mg·L^(-1) GA_(3)和2mg·L^(-1) CPPU;‘夏黑’葡萄最佳处理为盛花期浸蘸25mg·L^(-1) GA_(3),10~15d后再次浸蘸50mg·L^(-1) GA_(3)和2mg·L^(-1) CPPU。

早熟葡萄新品系‘夏宜玫瑰’在浙东沿海地区种植的特征特性及栽培技术要点

早熟葡萄新品系‘夏宜玫瑰’是‘夏黑’的芽变。在浙东沿海地区设施促早栽培条件下,浆果6月上旬成熟,比‘夏黑’早15 d左右。该品系果穗圆锥形,穗形中大,平均穗重689 g;果粒圆形,平均单粒重7.9 g,果皮厚、蓝黑色,果粉厚,果肉较硬,味甜,有玫瑰香味,可溶性固形物含量17.2%。

Impact of European Black Carbon on East Asian Summer Climate

The remote response of the East Asian summer monsoon （EASM） to European black carbon （EUBC） aerosols was studied by using an ensemble of sensitivity experiments with the Geophysical Fluid Dynamics Laboratory （GFDL） atmospheric general circulation model （AGCM） Atmospheric Model version 2.1 （AM2.1）.The results show that EUBC causes an enhanced EASM.The resulted enhanced southwesterly brings more moisture supply from the Bay of Bengal,which causes an increase in precipitation over the Yangtze River valley,northeastem China,the eastern part of the Yellow River valley,and the Tibetan Plateau.Diagnostic examination suggests that EUBC induces enhanced tropospheric heating over most of the Eurasian Continent through a propagating wave train and horizontal air temperature advection.This phenomenon results in intensified thermal contrast between land and ocean,which accounts for the enhanced EASM.Moreover,reductions in EUBC emission in 1992 may have contributed to decadal weakening of the EASM in the early 1990s.

RELATIONSHIPS BETWEEN SPRING KUROSHIO SSTA AND SUMMER RAINFALL IN CHINA

Based on the data of SST and NCEP/NCAR reanalysis data, the relationship is analyzed of spring SSTA in the Kuroshio region with summer precipitation in China, summer 500 hPa field and water vapor transport, using the methods of Morlet wave, correlation and composite analysis. The results show that annual and interdecadal change of spring SST in the Kuroshio region is distinct. Spring SST displays a significantly increasing trend and there exist different periodic oscillations in the Kuroshio region, with the 23-year periodic oscillation being the most obvious. Troughs and ridges in the mid- and higher- latitudes turn deeper in high Kuroshio SSTA years. At the same time, the western Pacific subtropical high strengthens and stretches westwards. As a result, the warm / wet air from the west of the subtropical high locates in the mid- and lower- reaches of the Yangtze River and south China and summer rainfall in the above regions increases accordingly. Composite anomalous water vapor flux fields indicate that the vapor transport from the South China Sea and western Pacific and the vapor from the north converge over the mid- and lower- reaches of the Yangtze River and south China, which results in the increase of the summer rainfall in the mid- and lower- reaches of the Yangtze River and south China. On the contrary, the summer rainfall in the mid- and lower- reaches of the Yangtze River and south China decreases correspondingly in low Kuroshio SSTA years.

Modeled Influence of East Asian Black Carbon on Inter-Decadal Shifts in East China Summer Rainfall

Two inter-decadal shifts in East China summer rainfall during the last three decades of the 20th century have been identified.One shift occurred in the late 1970s and featured more rainfall in the Yangtze River valley and prolonged drought in North China.The other shift occurred in the early 1990s and featured increased rainfall in South China.The role of black carbon(BC) aerosol in the first shift event is controversial,and it has not been documented for the second event.In this study,the authors used Geophysical Fluid Dynamics Laboratory's(GFDL's) atmospheric general circulation model known as Atmosphere and Land Model(AM2.1) ,which has been shown to capture East Asian climate variability well,to investigate these issues by conducting sensitive experiments with or without historical BC in East Asia. The results suggest that the model reproduces the first shift well,including intensified rainfall in the Yangtze River and weakened monsoonal circulation.However,the model captures only a fraction of the observed variations for the second shift event.Thus,the role of BC in modulating the two shift events is different,and its impact is relatively less important for the early 1990s event.