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1.
壳金长牡蛎自交和杂交家系生长与存活比较 总被引:2,自引:2,他引:0
选择具有生长优势的长牡蛎(Crassostrea gigas)G2(A)家系及具有明显生长和存活优势的G19(B)和G28(C)家系进行完全双列杂交,得到包括3个自交组(AA、BB、CC)和6个杂交组(AB、AC、BA、BC、CA、CB)共9个壳金长牡蛎实验组,分析各实验组在幼虫期及稚贝期不同日龄的各生长指标和存活性能,并评估了杂交组的杂种优势。结果表明,在整个培育阶段,大多数杂交组在不同生长时期均表现出较高的生长和存活性能,其中,浮游幼虫期5日龄,所有杂交组的壳高和壳长均显著大于自交组(P0.05);10日龄后,杂交组CB、BC和AC的壳高显著大于相应的自交组(P0.05),杂种优势明显;稚贝期85和130日龄,杂交组CB的壳高性能大于其他实验组。浮游幼虫期10日龄,CB组存活率显著大于AA、CA组(P0.05);稚贝期85日龄后,杂交组AC、CA和CB的存活率杂种优势逐渐增大;190日龄,杂交组AC、BC与自交组AA、CC之间存活率差异显著(P0.05)。研究结果为壳金长牡蛎新品种的培育及杂种优势的充分利用奠定了重要基础。 相似文献
2.
熊本牡蛎中国群体与美国群体杂交效应及杂交三倍体优势分析 总被引:1,自引:1,他引:0
为了评估熊本牡蛎(Crassostreasikamea)中国群体与美国群体的杂交效应与杂交三倍体优势,构建了杂交群体和自交群体,并使用细胞松弛素B诱导了杂交三倍体,比较分析了幼虫、稚贝与成贝的生长与存活优势。自交群体和杂交群体的幼虫、稚贝与成贝的培养条件均相同,室内培育幼虫,培育密度为4~5个/mL,自然海区养殖稚贝与成贝,养殖密度为40~45个/吊。结果表明,与自交组相比,杂交二倍体具有较高的卵裂率(13.61%)与D幼率(5.67%)(P0.05),但杂交二倍体幼虫的壳高生长表现杂种劣势(–0.43%),而稚贝、成贝的壳长与壳高的生长表现杂种优势,平均优势率分别为3.96%与6.65%。杂交三倍体诱导组幼虫的壳高生长优势率为3.69%,稚贝及成贝的壳长与壳高平均生长优势率分别为12.69%与13.64%,并且日龄越大生长优势越显著。总体上,杂交三倍体诱导组在3~180日龄具有存活劣势,并且15日龄存活劣势率最大(–48.72%),而在360日龄存活优势率为6.70%。杂交二倍体幼虫与成贝均具有存活优势,平均优势率分别为10.44%与4.59%。本研究表明熊本牡蛎中美地理群体杂交二倍体的生长和存活优于自交二倍体,而杂交三倍体诱导组的生长优势较显著,并且在成贝期具有显著的成活率优势,表明杂交三倍体诱导组的优势来源于三倍体优势和部分杂种优势。 相似文献
3.
长牡蛎中国群体和美国群体杂交效应与三倍体的优势 总被引:1,自引:0,他引:1
将长牡蛎中国群体二倍体分别与美国群体二倍体和四倍体进行杂交,实验共设置4组,分别为杂交二倍体组、杂交三倍体组、中国二倍体组和美国二倍体组,比较了各实验组卵裂率、D幼率、D形幼虫大小及幼虫期、稚贝期的壳高生长、存活率等生物学指标,并估算杂交二倍体的杂种优势率和杂交三倍体的三倍体优势率。结果表明,杂交二倍体幼虫壳高生长的杂种优势率不明显,平均杂种优势率为1.21%,幼虫的存活率及稚贝的壳高生长表现出明显的杂种优势,平均杂种优势率分别为34.47%和20.39%。杂交三倍体的D形幼虫大小、幼虫和稚贝的壳高生长、存活率均表现出三倍体优势,D形幼虫大小三倍体优势率为5.19%,幼虫期壳高生长和存活的平均三倍体优势率分别为4.00%和19.92%,稚贝壳高生长和存活的平均三倍体优势率分别为30.18%和54.43%,200日龄,杂交三倍体鲜体质量的三倍体优势率为202.96%,存活三倍体优势率为73.60%。此外,稚贝期的杂交二倍体生长性状的杂种优势率和杂交三倍体的三倍体优势率均高于幼虫期的优势率。研究表明,中、美两地理群体杂交获得的三倍体长牡蛎子代生长和存活性状都比二倍体优良。杂交三倍体的优良性状主要是三倍体优势,杂交优势的贡献率还有待进一步实验证实。 相似文献
4.
《渔业科学进展》2016,(6)
以魁蚶(Scapharca broughtonii)中国群体(C)和韩国群体(K)为材料,进行了4个组合的杂交和自交实验,分析了各实验组的受精率、孵化率、幼虫和稚贝的生长、存活以及杂交子一代的杂种优势。结果显示,4个组的受精率和孵化率均较高(80%以上);自交组的受精率略高于杂交组,但孵化率无显著差异。在幼虫期,KK组和KC组的壳长平均值大于CK组和CC组,但存活率和变态率无显著差异;在稚贝期,KK组和KC组的壳长平均值也均大于CK组和CC组,但CC组和CK组的保苗率比KC组和KK组高。综合分析比较表明,杂交KC组的杂种优势率在幼虫期和稚贝期的壳长生长上均表现为正值,在稚贝期的存活率方面也表现为正值,杂交KC组结合了两群体的部分优良性状,是理想的育种材料。 相似文献
5.
以魁蚶(Scapharca broughtonii)中国群体(C)和韩国群体(K)为材料,进行了4个组合的杂交和自交实验,分析了各实验组的受精率、孵化率、幼虫和稚贝的生长、存活以及杂交子一代的杂种优势.结果显示,4个组的受精率和孵化率均较高(80%以上);自交组的受精率略高于杂交组,但孵化率无显著差异.在幼虫期,KK组和KC组的壳长平均值大于CK组和CC组,但存活率和变态率无显著差异;在稚贝期,KK组和KC组的壳长平均值也均大于CK组和CC组,但CC组和CK组的保苗率比KC组和KK组高.综合分析比较表明,杂交KC组的杂种优势率在幼虫期和稚贝期的壳长生长上均表现为正值,在稚贝期的存活率方面也表现为正值,杂交KC组结合了两群体的部分优良性状,是理想的育种材料. 相似文献
6.
太平洋牡蛎与葡萄牙牡蛎两亚种间杂交及其早期阶段生长与存活的杂种优势 总被引:2,自引:2,他引:0
利用山东青岛养殖的太平洋牡蛎(N)与汕头本地养殖的葡萄牙牡蛎(S)两个近缘种为亲本,采用正交设计建立了杂种组NS(N♂×S♀)和SN(S♂×N♀)与纯种组NN(N♂×N♀)和SS(S♂×S♀)4个不同的遗传组合,通过比较不同阶段(幼虫期、稚贝期、养成阶段)的生长和存活数据,研究了牡蛎近缘种间的杂种优势,目的为改良牡蛎的生产性状。结果表明,这两个近缘种之间杂交能够产生显著的杂种优势,杂交后代的生长与存活两个表型性状都得到改良。杂交组比近交组生长得快,杂种优势在幼虫期为37.44%,稚贝期为42.47%。杂交组也比近交组存活率高,8日龄幼虫存活率的杂种优势为76.80%、14日龄幼虫存活率的杂种优势可达107.70%,60、90和105日龄稚贝存活率的杂种优势分别为17.30%、15.62%和9.08%。研究表明,通过太平洋牡蛎和葡萄牙牡蛎两个近缘种间的杂交有望解决牡蛎养殖产业存在的育苗难、存活率低、生长慢、个体小等问题。 相似文献
7.
长牡蛎3种壳色家系间杂交子代生长和存活比较 总被引:5,自引:1,他引:4
为了利用杂种优势培育长牡蛎优良新品种,实验以3种不同壳色长牡蛎家系(白色/W、黑色/B、紫色/P)为材料,采用3×3完全双列杂交法,建立了3个自交组合和6个正反杂交组合,分析了各实验组幼虫期和养成期的生长、存活以及杂交子代的杂种优势。结果表明,浮游幼虫期,杂交组PB表现出显著的生长优势;与自交组相比,各杂交组均有着较高的幼虫存活率;在幼虫存活率方面,所有杂交组均有较高的杂种优势率。在养成期,紫壳色自交组的壳高显著大于白壳色和黑壳色自交组;6个杂交组中,PB的壳高生长最快,BP次之,PW、WP的生长最慢;各杂交组与自交组的成活率差异均不显著;杂交组BP及其反交组PB的壳高、壳长、总重和存活率的杂种优势率分别介于3.71%~15.27%、-2.00%~13.10%、11.23%~41.56%、-2.77%~9.83%,其他4个杂交组在整个养成阶段没有表现出杂种优势。 相似文献
8.
海湾扇贝杂交家系与自交家系生长和存活的比较 总被引:23,自引:9,他引:23
2002年春季,利用国内现有的海湾扇贝两个不同遗传背景的养殖群体A和B的种贝为材料,采用自体受精和异体受精两种交配策略,建立了海湾扇贝的自交系和杂交系。实验由AA(A♀×A♂)、BB(B♀×B♂)、AB(A♀×B♂)、BA(B♀×A♂)四个组组成。杂交使两个表型性状———生长和存活都得到了改良。就生长而言,杂交组比自交组快,杂种优势在幼虫期为35.34%、养成阶段为21.17%;杂交组AB的生长速度比自交组AA的提高了35.53%(幼虫期)和43.32%(养成阶段),杂交组BA的生长速度比自交组BB的提高了35.13%(幼虫期)和12.34%(养成阶段)。就存活而言,两个杂交组的存活率都高于相应的自交组,杂种优势的平均值在幼虫期为19.93%,养成阶段为31.46%;杂交组AB的存活率比自交组AA的提高了25.23%(幼虫期)和49.44%(养成阶段),杂交组BA的存活率比自交组BB的提高了12.36%(幼虫期)和21.29%(养成阶段)。A、B两个群体间存在的遗传差异是它们能够获得杂种优势和性状得到改良的基础。 相似文献
9.
为了培育壳型和生长性状优良的深凹壳型香港牡蛎(Crassostrea hongkongensis)新品系,以广东台山镇海湾香港牡蛎野生群体为基础群体,以壳型和生长为主要选育目标,依据壳型指数D和巢式设计建立了30个全同胞家系和1个对照组,评估各家系和对照组在幼虫期和稚贝期的生长和存活性能。结果表明,整个生长阶段,各家系生长性状和存活率的平均值均高于对照组。幼虫期,所有家系壳高、生长速度以及存活率的平均值均高于对照组,所有家系壳高平均值比对照组提高3.78%~7.73%,生长速度提高7.86%,存活率提高2.85%~7.32%。稚贝期,所有家系壳高、壳长以及生长速度、存活率的平均值均高于对照组平均值,壳高提高5.23%~16.32%,壳长提高7.94%~10.69%,生长速度提高9.55%~20.16%,存活率提高3.45%~12.25%。不同家系在不同时期的生长性状和存活性能也表现出较大的差异,G1在整个稚贝期的生长性状、生长速度以及存活率的平均值均显著高于所有家系和对照组的平均值, 12月龄G1家系的壳高、壳长、壳宽、壳型指数D、总重、壳重、软体重、存活率比所有家系平均值提高9.83%~54.75%,相比对照组平均值提高23.34%~80.77%,同时G3、G10、G12、G15、G19、G23、G26在稚贝期也表现出较大的生长优势和存活优势。研究表明,深凹壳型香港牡蛎家系选育群体在生长性状和存活性能上均具有较大的优势, G1、G3、G10、G12、G15、G19、G23、G26可作为后期培育生长性能优良的深凹壳型香港牡蛎新品系的育种材料。本研究为中国华南地区培育出深凹壳型、生长性能良好的香港牡蛎优良品种提供了理论基础和数据材料。 相似文献
10.
香港巨牡蛎与近江牡蛎杂交及回交子代早期生长发育比较 总被引:5,自引:3,他引:2
为评估香港巨牡蛎与近江牡蛎杂交及回交育种的可行性,本文以香港巨牡蛎(Crassostrea hongkongensis)与近江牡蛎(Crassostrea ariakensis)为材料,比较了两种牡蛎杂交与回交子代的受精率、孵化率、幼虫及稚贝的生长和存活率。结果表明:香港巨牡蛎卵子可以与近江牡蛎精子受精,受精率为47.33±2.52%,但近江牡蛎卵子与香港巨牡蛎精子不受精。在回交实验中,香港巨牡蛎(H♀)与近江牡蛎(A♂)的杂交牡蛎 (HA)与香港巨牡蛎(HH)或近江牡蛎(AA)都可以正常交配,但各回交组受精率明显低于两牡蛎自交组(P<0.05)。受精后,HA与AA回交组的孵化率最低,分别为20.33±2.08%(♀A×♂HA),55.67±2.52%(♀HA×♂A),其它各实验组孵化率均大于70%。幼虫期, HA幼虫存活率明显低于两牡蛎自交组HH和AA(P<0.05);HA幼虫生长快于AA, 但慢于HH;♀A×♂HA回交组和HA自繁组的幼虫存活率为0。稚贝期,HA稚贝存活率与HH、AA自交组存活率差异不显著(P>0.05)。HA稚贝生长快于HH, 但慢于AA。另外,研究发现♀H×♂HA回交组幼虫和稚贝的生长与HA差异不显著(P>0.05),优于其它回交组;♀H×♂HA回交组幼虫的存活率与HA差异不显著(P>0.05),其稚贝的存活率虽低于HA,但优于其它回交组。本研究为牡蛎种间杂交及回交育种奠定了一定的理论基础。 相似文献
11.
太平洋牡蛎与近江牡蛎的种间杂交 总被引:9,自引:4,他引:5
为了评估太平洋牡蛎与近江牡蛎能否产生远缘杂种优势,于2010年5月,以成熟的两种牡蛎亲本为材料开展了2×2远缘杂交研究,由长牡蛎自繁组GG(Crassostrea gigas♀×C.gigas♂)、近江牡蛎自繁组AA(C.ariakensis♀×C.ariakensis♂)、正交组GA(Crassostreagigas♀×C.ariakensis♂)、反交组AG(C.ariakensis♀×C.gigas♂)4个实验组组成。分析了子代早期表型性状和杂种优势,并对杂交子代进行了遗传鉴定。结果表明:GA杂交组与AG组的受精强度具有不对称性。幼虫浮游期间,表型性状的中亲杂种优势几乎为0,GA组生长与存活性状表现出积极的单亲杂种优势,而AG组则具有明显的远交衰退现象;幼虫早期表型性状受到母本效应影响,而后减弱。变态期间,GA组变态率较高,得到了大量杂交稚贝;而AG组变态率极低,仅获得了72个杂交稚贝。稚贝培育期间,稚贝表现出中亲生长劣势与存活优势;GA组具有明显的单亲生长与存活优势,而AG组则表现出生长劣势并具有一定程度的存活优势。利用复合COI及ITS2鉴定了种间杂交子结果表明:正反交组杂交子均为真正意义上的两性融合杂交子。实验获得了具有显著杂种优势的GA组杂交子,为现有牡蛎的遗传改良提供了新的方向。 相似文献
12.
Growth and survival of three small abalone Haliotis diversicolor populations and their reciprocal crosses 总被引:1,自引:0,他引:1
The aquaculture industry of small abalone Haliotis diversicolor in southern China is now close to collapse because of high mortality at the grow-out stage. To examine if survival and growth (shell length increase) could be improved by cross breeding among populations, a 3 × 3 complete diallel cross was conducted among three populations from Japan (A), Taiwan (B) and Vietnam (C). Performances in growth rate and survival at early juvenile, later juvenile and grow-out stages were compared among the six reciprocal cross lines and three parental lines. Magnitude of heterosis for survival and growth varied among cross lines in the three growing stages. As to mid-parent heterosis, H AB was significantly ( P <0.01) higher than H AC and H BC at all three growing stages for both growth and survival, and all mid-parent heterosis fell between the two corresponding single-parent heterosis. H AB was 6.84% for shell length and 69.09% for survival at Day 420. Our results of high survival heterosis in line AB and line BA show that crossbreeding between different populations can benefit the small abalone breeding programs and the industry. 相似文献
13.
Baobao Xue Benlong Shen Hao Li Delong Meng Donghong Niu Jiale Li Heding Shen 《Aquaculture Research》2020,51(4):1388-1397
The paper reports a study focused on breeding new rapidly growing and heat‐tolerant strains in a commercially important Asian bivalve, Sinonovacula constricta. To breed a new strain of S. constricta with fast growth and high temperature tolerance, complete diallel crosses were carried out using three different geographical culture populations from Zhejiang (Z), Fujian (F) and Guangdong (G) provinces, China. Larval and spat growth and the survival and heat tolerance of spats were compared in detail. The experimental serial growth traits extracted from larval and spat measurements (shell length and shell height) indicated that there was no difference between six hybrid crosses and parental crosses at the larval stage; while at the spat stage, some differences were observed. The hybrid crosses ZF (Z♀ × F♂), ZG (Z♀ × G♂) and FG (F♀ × G♂) outperformed the parental groups in shell length at the end of intermediate culture, with lengths of 21.77 ± 0.28 mm, 21.55 ± 0.29 mm and 21.44 ± 0.20 mm respectively. For spat survival rate, the hybrid cross ZF (Z♀ × F♂) had a significantly larger value (88.89 ± 4.16%) than all the other groups, and the hybrid cross ZG (Z♀ × G♂) had a significantly larger rate than the cross GZ (G♀ × Z♂) and parental crosses ZZ (Z♀ × Z♂) and GG (G♀ × G♂). The hybrid crosses ZF (Z♀ × F♂), ZG (Z♀ × G♂) and FG (F♀ × G♂) exceeded the parental groups in heat tolerance, but there was no significant difference. The growth, survival and heat tolerance results showed that the crosses ZF, ZG and FG in this study were the best hybridization combinations for genetic improvement, which could have significant implications for the development of razor clam aquaculture. This work provides a theoretical basis for breeding new varieties (strains) that grow rapidly and are heat tolerant. 相似文献
14.
栉孔扇贝中国种群与日本种群杂交一代的早期生长发育 总被引:27,自引:4,他引:27
对两个不同地理种群的栉孔扇贝的两个群体———中国种群(C)和日本种群(J)的纯种后代及其正反两个杂交组合(C♀×J♂和J♀×C♂)的杂种个体,早期(10月龄)同地同期生长发育进行了测定和统计分析比较。结果表明,两个种群正、反交杂种一代在壳高、壳长、壳宽、活体重及成活率5个生长发育指标上均表现不同程度的杂种优势,反交杂种F1′除成活率外,其余各项生长发育指标显著优于正交杂种;中国和日本两个亲本群体各个性状的测定性能表现为壳宽差异显著和成活率差异极显著外,其它各项指标均没有显著差异。实验证明杂交是提高扇贝生产性能和抗逆性的重要途径。 相似文献
15.
杂色鲍(Haliotis diversicolor)是中国南方主要的鲍养殖种类,近年来“东优1号”杂色鲍因较高的成活率优势已在产业上得到越来越广泛的推广养殖.该研究采用3×3完全双列杂交的方式,对杂色鲍“东优1号”群体、杂色鲍古雷群体和杂色鲍越南群体3个群体自繁与杂交后代的养殖性能进行跟踪,并对其杂种优势进行评估.结果表明,3个群体自繁后代的生长速度和成活率上存在显著差异(P<0.05),同时3个组合的生长速度与成活率的双亲杂种优势率值均不高,且2个单亲杂种优势率值之间有显著差异(P<0.05). 相似文献
16.
A diallelic cross between two strains [Layo strain (LS) and Noun strain (NS)] of the catfish Heterobranchus longifilis Valenciennes was carried out under controlled hatchery conditions to estimate their reproductive performance and aquaculture potential in terms of fertilizability, hatchability, survival, growth and heterosis. The average fertilization rate of all mating groups was as high as 90.4%, the fertilization rate of the purebred NS (95.2%) being significantly higher than that of the purebred LS or the reciprocal crosses (P < 0.05). The average hatching rate of all genetic groups was as high as 84.7%, the hatching rate of NS (89.4%) being significantly higher than that of the purebred LS or the reciprocal crosses (P < 0.05). The mean survival rate of all crosses from hatching up to the onset of exogenous feeding stood at 94.2%, without showing a significant difference (P > 0.05) between the crosses. During the larval rearing period, which extended from the onset of exogenous feeding up to 15 days of age, NS displayed a significantly lower growth rate (P < 0.001) than that of the purebred LS and their reciprocal hybrids. There was no significant difference (P > 0.05) in survival rate (mean 84.7%) between the four crosses at the end of the larval rearing period. During the juvenile rearing phase, the mean growth performance of all crossbreds was similar to that of the purebred LS and significantly different from that of the purebred NS (P < 0.001). The final individual weights attained by LS, NS, LS × NS and NS × LS were 3.31, 0.71, 3.97 and 3.66 g respectively. The increase in weight attained by the fast‐growing crossbred LS × NS was 562.2%, 20.4% and 8.7% more than that of NS, LS and NS × LS respectively. The survival rate of NS (57.1%) was significantly lower (P < 0.001) than that of all the rest of the crosses. The crossbreds displayed about 15.1% heterosis in mean body weight relative to the fast‐growing purebred LS. It was concluded that cross‐breeding of H. longifilis strains could be advantageous because of the hybrid vigour in the progeny. 相似文献
17.
Survival and growth of reciprocal crosses between two stocks of the Hong Kong oyster Crassostrea hongkongensis (Lam & Morton, 2003) in southern China 
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下载免费PDF全文 Yuehuan Zhang Jiaqi Su Jun Li Yang Zhang Shu Xiao Ziniu Yu 《Aquaculture Research》2017,48(5):2344-2354
The Hong Kong oyster, Crassostrea hongkongensis, is one of the most economically important and well‐known oyster species in southern China. To explore the possibility of improving the performance of the Hong Kong oyster, complete diallel crosses between two oyster stocks, the Zhuhai stock (Z: fast growth line F4) and the Maowei Sea stock (M: resistant line F3), were conducted using pooled gametes. Three replicates, each consisting of two pure stocks (ZZ and MM) and two reciprocal crosses (ZM and MZ), were successfully generated. High fertilization rate and hatching level were observed among all the experimental groups, suggesting that there was no sperm–egg recognition barrier between geographic populations. Reciprocal crosses had higher survival rate compared to the pure stock crosses and the rate of survival increased with progeny growth. Growth heterosis became obvious both in larval and adult stages, and was primarily influenced by the egg origin and mating strategy at the larval stage. Also, the phenotypic traits of all progeny differed amongst the culture sites, suggesting a significant environmental effect. The Zhuhai site was more suitable for oyster aquaculture than the Maowei Sea site. Thus, our results demonstrated that crossbreeding between Zhuhai and Maowei Sea stocks of Hong Kong oyster to produce superior heterosis represents a promising means to improve the fishery yield of this species in southern China. 相似文献