Suitable growing zone and yield potential for late-maturity type of Yongyou japonica/indica hybrid rice in the lower reaches of Yangtze River, China

Late-maturity type of Yongyou japonica/indica hybrids series （LMYS） have shown great yield potential, and are being widely planted in the lower reaches of Yangtze River, China. Knowledge about suitable growing zone and evaluation of yield advantage is of practicall importance for LMYS in this region. Fifteen LMYS, two high-yielding inbred japonica check varieties （CK-J） and two high-yielding hybrid indica check varieties （CK-I） were grown at Xinghua （119.57°E, 33.05°N） of Lixiahe region, Yangzhou （119.25°E, 32.30°N）of Yanjiang region, Changshu （120.46°E, 31.41°N）of Taihu Lake region, and Ningbo （121.31°E, 29.45°N） of Ningshao Plain in 2013 and 2014. The results showed that maturity dates of the 15 were later than the secure maturity date at Xinghua and 6, 14 and 15 LMYS were mature before the secure maturity date at Yangzhou, Changshu and Ningbo, respectively. One variety was identified as high-yielding variety among LMYS （HYYS） at Yangzhou, 8 HYYS in 201：3 and 9 HYYS in 2014 at Changshu, 9 HYYS at Ningbo. HYYS here referred to the variety among LMYS that was mature before the secure maturity date and had at least 8% higher grain yield than both CK-J and CK-I at each experimental site. Grain yield of HYYS at each experimental site was about 12.0 t ha-1 or higher, and was significantly higher than CK varieties. High yield of HYYS was mainly attributed to larger sink size due to more spikelets per panicle. Plant height of HYYS was about 140 cm, and was significantly higher than check varieties. Significant positive correlations were recorded between duration from heading to maturity stage and grain yield, and also between whole growth periods and grain yield. HYYS had obvious advantage over check varieties in biomass accumulation and leaf area duration from heading to maturity stage. Comprehensive consideration about safe matudty and yield performance of LMYS at each experimental site, Taihu Lake region （representative site Changshu） and Ningshao Plain （representative site Ningbo） were thought suitable growing zones for LMYS in the lower reaches of Yangtze River. The main factors underlying high yield ofHYYS were larger sink size, higher plant height, longer duration from heading to maturity stage and whole growth periods, and higher biomass accumulation and leaf area duration during grain filling stage.

Resistance Evaluation of Some Hybrid Rice, Conventional Early Indica and Late Japonica Rice to Magnaporthe grisea

Thirty isolates of Magnaporthe grisea collected from 18 provinces/cities representing 21 pathotypes and 9 different lineages were inoculated to rice varieties with known resistance genes and some hybrid rices, conventional early indica and late japonica varieties cultivated recently in China. Virulence spectrum of the 30 isolates was very different, showing that they recognize numerous different resistance genes. Varieties also revealed very different resistance patterns showing that they carry different resistance genes or combinations of resistance genes. On the basis of comparisons with international differential varieties with known resistance genes, resistance genes in certain Chinese varieties could be speculated. The results indicated that some of them were resistant to most of the isolates tested and that they could be of interest as resistance sources for hybrid parents or to be planted in the field directly.

Comparative Test of New Late Indica Hybrid Rice Combinations with Good Quality

[Objectives]This study was conducted to screen rice varieties suitable for planting in Nanchang City with high quality,high yield,good yield,and strong disease and stress resistance.[Methods]Seven new late indica hybrid rice combinations with good quality bred in Jiangxi Province in recent years and seven new late indica hybrid rice combinations with good quality bred by Nanchang Academy of Agricultural Sciences were introduced,and compared with Tianyouhuazhan as a control.[Results]The rice quality and taste of the tested combinations were better than those of the control.Among the tested combinations,Yuliangyoufuxiangzhan,Xintaiyousizhan,Yuxiangliangyou No.8 and Guangheyou 33 had good stress resistance,high yield and good rice quality.[Conclusions]This study provides a theoretical basis for the selection and breeding of new rice varieties in Nanchang City.

Yield and Quality Performance of Japonica Rice Varieties Grown in the Late Season in a Double Rice Cropping System of China

Meeting the demand for high-quality japonica rice is a major challenge facing China's grain security. In the present study, a two-year field experiment was conducted to investigate the yield, quality, and profitability of japonica rice varieties(including hybrids and inbreds) grown in the late season as compared with local elite indica hybrids in a double rice cropping system of China where indicas are traditionally planted. Indica hybrids had significantly longer vegetative(from sowing to heading) and total(from sowing to maturity) growth durations than japonicas in both2011 and 2012, while reproductive growth duration(from heading to maturity) was longer for indica hybrids than for japonicas in 2011 but not in 2012. Indica hybrids produced higher grain yield than japonicas in 2011, but with no significant differences in 2012. Japonicas had higher brown rice, milled rice, and head rice percentages than indicas, but had lower gelatinization temperature and amylose content,while with no significant differences in gel consistency and protein content. Indica hybrids tended to have lower chalky grain percentage and chalkiness degree than japonicas, though the differences were not statistically significant due to large genotypic variations. The net returns were 16.1% and 9.9% greater for indica hybrids than for japonica hybrids and japonica inbreds in 2011, with only 3.8% and 1.3% in2012, respectively. Thus, our results suggest that replacing indicas with japonica varieties as late rice may not be feasible at the present site unless locally adapted japonica varieties are developed.

华南双季稻区不同季别种植籼稻品种整精米率差异及高整精米率材料筛选

整精米率是决定稻米商品价值的重要性状之一,筛选不同环境条件下种植都具有高整精米率的品种具有重要意义。本研究通过比较357个籼稻种质在广东省农业科学院大丰试验基地不同年份(2021—2023)不同季节(早、晚季)种植时的整精米率,发现2021年晚季的整精米率最好、2022年早季次之、2023年早季最差。其中,泰丰B、19香、广恢6200、粤黄丝苗、华新占、香雪丝苗等17份长粒籼稻的整精米率在3次不同种植环境下均达GB/T17891—2017优质稻标准,适用于高整精米率水稻育种。

早稻舜达135特早栽培高产技术研究

舜达135是绍兴市舜达种业有限公司与中国水稻研究所联合育成的早熟常规早籼稻新品种。为充分发挥该品种早熟、高产优势,在特早栽培条件下(播种期比绍兴传统播期提早10~15 d)开展了不同梯度机插密度和肥料用量对比试验。结果表明,不同机插密度对舜达135有效穗数和产量有极显著影响,对穗粒数和结实率影响未达到显著水平;不同氮肥水平和氮肥水平与机插密度的互作对舜达135有效穗数、穗粒数、结实率和产量的影响均不显著;以种植密度25 cm×14 cm、纯氮施用量150 kg/hm^(2)的处理实际产量最高,达9 633.45 kg/hm^(2)。在2021年和2022年示范中,特早栽培条件下舜达135百亩示范方产量分别达到10 563.00 kg/hm^(2)和10 258.05 kg/hm^(2)。通过2年的示范,总结提出了舜达135特早栽培高产技术。

杂交晚籼稻新组合乐优97的选育及栽培制种技术

乐优97是由合肥丰乐种业股份有限公司利用自育的三系不育系409A与恢复系R977杂交选育而成的高产、优质、抗倒杂交晚籼稻新组合,于2022年通过了国家农作物品种审定委员会审定。本文详细介绍了乐优97的选育过程和特征特性,并总结了乐优97优质高产栽培技术及其制种技术关键要点,以期为该产品的大规模推广种植提供参考。

优质杂交晚籼稻新组合色香优明月丝苗的选育与应用

色香优明月丝苗是湖南粮安科技股份有限公司、广西绿海种业有限公司、江西天稻粮安种业有限公司等单位利用优质香型不育系色香A与恢复系R明月丝苗配组选育而成的优质籼型杂交晚稻新组合,于2023年分别通过国家、江西省和湖南省农作物品种审定。本文介绍了该品种的选育过程、特征特性及栽培制种技术要点。

桂南晚稻晚籼品种的农艺性状及产量比较试验

为筛选出适宜广西地区种植的桂南晚稻晚籼优良品种,在田阳县进行了桂南晚稻晚籼品种生长期、抗病性、农艺性状及产量的比较试验。结果显示,香118、优938和恩丰优805、恩丰优806的综合评价和整体表现更优,均具有分蘖力强、结实率高、抗性好、产量高等优点,可在广西地区推广种植。

High-yielding Seed Production Techniques of New Hybrid Rice Combination-Chuanxiang No.2058

Chuanxiang No.2058 is a new combination of three-line late indica hybrid rice bred based on sterile line Chuanxiang 29A and restorer Qiannanhui No.2058. In order to promote its application, seed production techniques of Chuanxiang No.2058 were explored during 2009-2010. The research detailed the seed production tech- niques from selection of seed production bases, rational arrangement of sowing gap stage, seedling cultivation in different stages, scientific arrangement of male/female parents, management of fertilizer and water, adjustment of florescence, artificial pol- lination, comprehensive treatment of disease and pest damages, and timely control- ling of abnormal and poorly-qualified rice.

氮气气调储藏下不同温度对晚籼稻品质的影响

目的探究氮气气调结合控温储藏对晚籼稻品质的影响。方法本研究以广西桂林新收获的晚籼稻为对象,采用99%浓度的氮气包装,在高温(35℃)、常温(25℃)、低温(15℃)3个条件下的恒温培养箱中进行180 d的储藏。同时设立常规储藏条件作为对照,每30 d取一次样,进行加工、储藏品质及米饭蒸煮品质指标的测定。结果在3个温度条件下,相比于常规储藏,氮气气调稻谷能够有效延缓出糙率和水分的下降。在35℃条件下,氮气气调稻谷的整精米率、品尝评分值下降幅度及黄粒米率、脂肪酸值、直链淀粉含量、米饭吸水率的上升幅度均较大。在15℃和25℃条件下,氮气气调稻谷则能够有效延缓整精米率和品尝评分值的下降,并抑制黄粒米率、脂肪酸值、直链淀粉含量和吸水率的上升。在25℃和35℃条件下,氮气气调能够抑制蒸煮后体积膨胀率的上升,但在15℃条件下的效果不明显。相关性分析显示,在种子储藏时应避免使用氮气气调。主成分分析结果表明,在25℃条件下,氮气气调比低温常规储藏效果更好,能够延缓稻谷品质劣变。而品质特征指标与储藏条件的相关性分析结果表明,储藏温度对稻谷品质的影响较小。结论将温度控制在25℃的氮气气调储藏方式在经济性上更为优越,既能延缓稻谷品质劣变,又能节约储藏成本。

江西省双季稻“早籼晚粳”种植模式产量、资源利用效率及经济效益研究

通过设置“早籼晚粳”、优质稻全程机械化2种常用栽培模式,对比分析了周年产量构成、温光资源利用、氮肥利用、水分利用及经济效益的差异,探索了“早籼晚粳”模式高产的形成机理及高经济效益的形成原因。结果表明:与晚籼稻相比较,籼粳杂交稻生育期更长,灌浆结实期延长了25 d,可充分利用晚稻后期10月下旬—11月上中旬的温光资源,并且籼粳杂交稻穗大粒多、总颖花量大、库容量大,干物质积累量多,因此能获得更高的产量;与全程机械化模式相比,“早籼晚粳”模式周年产量增幅为17.57%,周年光能利用率增幅为12.68%,周年热能利用率增幅为14.07%,周年氮肥利用率增幅为6.89%,周年水分利用率增幅为11.63%,周年经济效益增加了2770元/hm2。“早籼晚粳”模式可充分利用南方稻区双季稻温光资源,大幅提升产量、水资源、温光资源及经济效益,适合在江西省进行大面积推广。

适度增加早籼稻生产 保障粮食安全

改革开放以来,我国早籼稻生产先扬后抑,近年来早籼稻产量更是持续在3 000万t下方徘徊,市场供需逐渐趋紧,价格走势表现强劲。早籼稻生产对我国口粮安全具有重要意义,当前形势下适度增加早籼稻产量很有必要。通过综合分析“早籼稻+”等不同轮作模式的优缺点可以发现,在早籼稻主产区适度推广“早籼稻+秋大豆”的轮作模式是稳粮增效、改良土壤的好方法,能适度增加早籼稻产量,提高大豆供应,适当减少收购最低收购价中晚籼稻,使我国稻谷三大品种和粮食品种之间的结构更加合理,有利于提升我国粮食安全的保障能力。

2021年福建省晚稻特种稻新品种区域试验(连江县试验点)

为筛选出适宜福建省种植的高优晚稻特种稻品种,在连江县省级农作物品种试验站开展品种区域比较试验,对12个晚稻特种稻新品种(以宜优673为对照)的主要农艺性状、产量、田间抗逆性等综合表现进行考究。结果表明:专用稻澜优151产量较CK增产,旗1优128、糯两优623产量较CK减产不显著;色稻东联红2号、紫两优610产量较CK增产,红两优164产量较CK减产不显著。这6个品种生育期、农艺性状和产量结构综合表现好,可继续进行比对试验。山两优186、糯两优红九、糯优611、坤两优8301、集两优967、紫香两优润香等6个品种较CK减产显著或极显著,建议终止试验。

中国部分杂交稻和常规早籼、晚粳品种(系)的抗瘟性

选用来自中国18个省、市,12个小种分属于9个不同谱系的30个具有广谱毒性的稻瘟病菌株,人工接种于已知抗瘟基因型的品种(系)及中国20世纪90年代新育成的部分杂交稻和常规早籼、晚粳品种上进行水稻抗病性鉴定。通过具有广谱毒性并能识别抗病基因的30个菌株,与具有不同抗性类型并携带有不同或与之相连锁的抗性基因的品种及已知抗性基因的国际鉴别品种进行比较,以期推测某些中国品种的抗性基因。结果表明,部分优异抗瘟材料及新育成的杂交稻组合和常规早籼、晚粳稻品种(系)能抗多数近年采集分离的田间致病菌株,是育种和大面积推广种植的良好材料。

双季晚稻甬优系列籼粳杂交稻超高产结构与群体形成特征

【目的】研究双季稻区晚稻季条件下,甬优系列籼粳杂交稻超高产结构与群体形成特征,以期为双季晚稻甬优系列籼粳杂交稻超高产栽培提供理论依据。【方法】以籼粳杂交稻有代表性的品种甬优538、甬优2640、甬优1538、甬优1540为试验材料,通过栽培措施的调控,形成超高产(≥10.50 t·hm-2)和高产(9.75 t·hm-2≤产量<10.50 t·hm-2)群体,对产量及其结构、茎蘖动态、叶面积动态与组成、光合势、干物质积累、群体生长速率等方面进行系统比较研究。【结果】与高产群体相比,超高产群体表现穗数足、穗型大、群体颖花量多(50 000×104颖花/hm2以上)的显著特点,但结实率和千粒重略降低,差异不显著;群体茎蘖于生育前期稳步增长,至有效分蘖临界叶龄期达适宜穗数,高峰苗出现在拔节期,数量少,成穗率高(>75%),此后群体下降平缓,至抽穗期达适宜穗数;群体叶面积指数前期增长相对较缓慢,最大值出现在孕穗期,为8.1左右,此后下降缓慢,抽穗期叶面积指数、有效叶面积率、高效叶面积率及粒叶比均极显著高于高产群体,成熟期叶面积指数仍保持在3.5以上;群体光合势生育前期较小,中后期较大,总光合势为580×104m2·d·hm-2以上,抽穗期至成熟期的光合势占总光合势的50.0%以上;群体拔节前干物质积累速度相对较缓,拔节后干物质积累速度较快,至抽穗期群体生物量为10.0 t·hm-2左右,抽穗后积累量亦高,至成熟期干物重达19.0 t·hm-2左右;有效分蘖临界叶龄期之前,超高产群体群体生长率较高产群体大,有效分蘖临界叶龄期至拔节期,超高产群体生长平稳,群体生长率较高产群体小,拔节以后,群体生长率极显著高于高产群体。【结论】超高产群体起点质量高,栽后分蘖早生快发,群体生长优势明显,特别是生育中后期光合生产能力强,物质积累多。超高产栽培水稻适宜产量构成应以足量穗数与较大穗型协调产出足够的群体颖花量,同时保持较高的结实率和千粒重。

施氮量和栽培密度对超级稻‘中嘉早17’物质生产特性的影响

以超级稻‘中嘉早17’为材料,研究和分析了4种不同氮肥施用量和2种不同栽培密度下的群体茎蘖动态、物质生产特性及产量构成特点,探讨了不同氮肥施用量和栽培密度下物质生产特性对产量形成的影响。结果表明：施氮量为0~195 kg/hm2,栽培密度为24×104和30×104穴/hm2时,产量随栽培密度的增加而增加。高密度种植时,以施氮量为105 kg/hm2时产量最高;低密度种植时,以施氮量为150 kg/hm2时产量最高。同时发现适宜施氮量和种植密度可提高抽穗期的茎鞘重和总干物重;有利于维持生育后期叶片中较高SPAD值,有利于减缓叶片的衰老,提高抽穗后的干物质生产量,从而使抽穗后新增同化产物（同化物直接供应量）和（叶片＋茎鞘）的表观输出率均有所增加。适宜施氮量和栽培密度也可以提高氮肥农学利用率和偏生产力。

籼型杂交晚稻稻米品质性状的遗传效应分析

以6个籼型野败三系不育系为母本,5个晚籼恢复系为父本,进行不完全双列杂交设计,对籼型杂交晚稻稻米品质性状的遗传效应进行分析.结果表明:糙米率、精米率、垩白粒率、碱消值和胶稠度等5个性状同时受到种子遗传效应和细胞质遗传效应的控制,但细胞质遗传效应都大于种子遗传效应.整精米率、垩白度和透明度等3个性状只受到种子遗传效应的控制,并且都以种子显性遗传效应为主.直链淀粉含量同时受到种子遗传效应和母体植株遗传效应的控制,但以种子显性遗传效应为主.粒长和长宽比同时受到母体植株加性遗传效应和母体植株显性遗传效应的控制.不育系451A、全丰A、长丰A及恢复系蜀恢527、科恢752、岳恢94是配制优质杂交晚稻组合的优异亲本.

高产优质晚籼新组合博优253的选育与应用

博优 2 5 3是广西大学利用自选的强优恢复系测 2 5 3 (IR3 6 田东野生稻∥IR2 0 61///IR2 4 古 15 4)与博A配组育成的晚籼新组合。该组合高产稳产 ,米质较优 ,耐寒力强 ,适应性广 ,制种产量高 ,全生育期 12 0d左右 ,单产 7.5 0～ 9.0 0t hm2 ,2 0 0 0年 12月通过广西区农作物品种审定。介绍了恢复系测 2 5 3的选育经过及该组合的特征特性和栽培制种技术要点。

籼型三系杂交晚稻稻米品质性状杂种优势的遗传分析

以6个籼型野败三系不育系为母本,5个晚籼恢复系为父本,进行不完全双列杂交,采用朱军提出的禾谷类作物种子数量性状的遗传模型和统计分析方法对杂交晚稻稻米品质性状的杂种优势进行遗传分析.结果表明:在杂交晚稻组合F2代稻米的糙米率、精米率、整精米率、粒长、长宽比、垩白粒率、垩白度、透明度、碱消值、胶稠度和直链淀粉含量等11项品质性状中普遍存在正向平均优势;除碱消值和直链淀粉含量外,也比较普遍存在正向超亲优势.并提出了在进行三系杂交晚稻组合品质育种时,合理利用有利的正向杂种优势和避免不利的正向杂种优势的建议.