不结球白菜抽薹开花性状的主基因+多基因遗传分析

为了研究不结球白菜抽薹开花性状的遗传规律,并对其耐抽薹品种进行鉴定筛选,以不结球白菜易抽薹纯系M10-1和耐抽薹纯系M10-2杂交获得的6世代(P1、P2、F1、B1、B2和F2)群体为材料,利用植物数量性状主基因+多基因多世代联合分析的方法对不结球白菜抽薹性状(现蕾期)和开花性状(开花期)进行遗传分析。结果表明,控制抽薹性状的为2对加性-显性-上位性主基因+加性-显性多基因,并存在明显的加性、显性和上位性效应。其中,2对主基因的加性效应值均为正,显性效应值hb大于ha,且以第2对主基因的正向显性效应为主;抽薹性状存在较大的主基因加性×加性和显性×显性互作效应,以呈负向的多基因的加性效应为主。B1、B2和F2的主基因遗传率分别为83.83%、87.82%和88.31%,多基因遗传率均为0,主基因+多基因遗传率平均为86.65%,环境变异占表型变异平均为13.35%,说明抽薹性状主要受主基因控制,在育种上可以应用抽薹性状(现蕾期)作为不结球白菜耐抽薹性的鉴定标准,并可在早期世代对其耐抽薹性进行选择,且要注意一定的环境因素。开花性状与抽薹性状遗传相似,均受到2对主基因控制,但主基因+多基因遗传率平均为9.57%,而环境变异平均为90.43%,对开花的影响显著,说明开花性状与环境的互作效应非常明显,不适宜作为耐抽薹性的鉴定指标。利用本研究获得的抽薹性状作为不结球白菜耐抽薹性的鉴定指标,并应用于育种实践,对选育不结球白菜耐抽薹新品种,提高产量具有重要意义。     

锌离子活度对水稻幼苗锌吸收分配的影响及基因型差异

采用卜HEDTA螯合缓冲营养液,在4个锌水平(pZn2+即-log[Zn2+])分别为11.4、11.0、10.3和9.7下对锌营养效率不同的4个水稻基因型[IR8192、IR26、BY(碧玉早糯)、Z921(浙农921)]进行营养液培养试验,研究水稻幼苗对Zn吸收、转运和利用规律。结果表明,随着锌离子活度下降,各水稻基因型的锌累积量下降,锌从地下部向地上部的转运率提高,锌利用效率提高,且各基因型间差异显著。在锌离子活度较低时,耐低锌基因型(IR8192)锌养分利用效率和提高养分利用率的能力要远远高于锌敏感基因型IR26和子粒富锌基因型BY;在锌离子活度较高时,水稻子粒富锌基因型BY有较强的锌富集能力,具有较高的秧苗锌累积量,这可能是其子粒富锌的主要机理之一;利用苗期营养性状筛选子粒富锌水稻基因型效果可能较好。     

基因型×环境互作下小麦氮代谢相关性状的遗传和相关性分析

【目的】选育氮高效的小麦品种,可有效提高氮素利用效率和生产效率,对环境安全至关重要。本文分析了小麦氮代谢相关性状的遗传效应,为小麦氮高效品种选育提供理论依据。【方法】选用7个小麦品种及其组配的12个杂交组合,进行田间盆栽试验。设置3个氮水平,利用基因型与环境互作的加性-显性遗传模型,对氮代谢相关的10个性状进行遗传与相关性分析。【结果】株高、开花期和成熟期单茎干物重、开花期氮素积累量、籽粒氮素积累量和氮素吸收总量主要受加性效应控制,花后氮素同化量受显性×环境互作效应影响较大,氮素利用效率、氮素生理效率以加性×环境互作效应为主。10个性状狭义遗传力总体不高(平均值为0.56),广义遗传力总体较高(平均值为0.881)。互作广义遗传力均达到1%显著水平,表明不同的氮水平对遗传表达有较大影响。氮素利用效率、氮素生理效率和开花期氮素积累量的互作狭义遗传力较大,表明不同氮水平对这些性状的选择效果不同。通过加性效应预测值得出,亲本DK138和JN10的氮素利用效率和氮素生理效率的加性效应为显著正效应。大多数组合的显性主效应与不同氮水平下的显性×环境互作效应在方向上不尽一致,表明小麦氮高效杂交后代的选择宜考虑特定的氮水平条件。显性效应预测值表明,组合JN10×W9903的氮素生理效率显性效应值最大且达到显著水平,是氮素生理效率较高的组合。相关分析表明,两两性状间以加性遗传相关为主。氮素生理效率与株高呈加性正相关关系,达到10%显著水平。除株高和谷氨酰胺合成酶活性外,氮素利用效率与其他性状间以显性环境互作相关为主。氮素利用效率与氮素生理效率之间的显性×环境互作相关系数达到10%显著水平。氮素利用率与氮素生理效率的表现型和基因型相关系数为正值且达1%显著水平。【结论】通过性状分析表明,株高在一定程度上可以作为氮素生理效率的间接选择性状,氮素利用效率与氮素生理效率这两个性状进行协同改良。品种DK138和JN10可作为亲本以提高后代的氮素利用效率和氮素生理效率。杂交组合LM14×W9903表现出良好的后代选育利用潜力。     

玉米叶片叶绿素含量的发育遗传动态及环境互作效应分析

采用包括基因型×环境互作效应的加性-显性遗传模型及非条件和条件的分析方法,研究了不同环境条件下玉米吐丝后不同发育时期叶片叶绿素含量性状的发育动态及其遗传发育规律.结果表明:玉米叶片叶绿素含量在不同发育时期均受到环境变化的影响.控制玉米叶片叶绿素含量的各遗传效应在不同环境条件下存在表达水平上的差异.吐丝至成熟前4个时期性状的表现是以遗传主效应(加性效应VA和显性效应VD)为主,遗传效应表达在不同环境中较为稳定,玉米籽粒成熟期该性状的表现是以环境互作效应为主,此时的遗传效应表达在不同环境中变化较大.玉米腊熟期至成熟期即玉米吐丝后40～50d是控制玉米吐丝后叶片叶绿素含量表现的微效多基因被激活表达最为活跃的时期.一些遗传效应存在发育时期间断表达的现象.     

水稻耐低锌基因型的生长发育和若干生理特性研究

在不同Zn2+活度（pZn2+9.7,pZn2+11.0和pZn2+＞11.5）的溶液培养条件下,研究了水稻耐低锌基因型的生长发育和若干生理特性。结果表明:水稻锌营养存在明显的基因型差异,降低锌离子活度会增加地下部于物质的积累,当Zn2+活度从pZn2+9.7下降到pZn2+11.0时,耐低锌品种的地上部干重虽下降,但因地下部干重显著增加,故总干重相近;锌敏感品种则地上部干重显著下降,而地下部干重增加不明显,总干重显著下降。当严重缺锌（pZn2+＞11.5）时,所有基因型水稻的干重构极显著地下降,但锌敏感品种比耐低锌品种下降得更多。降低Zn2+活度使水稻秧苗的出叶速度减慢,在极度缺锌条件下,敏感品种只能生长到3.5叶,而耐低锌品种能生长到4.5叶左右。对叶绿素和根系氧化力的测定结果表明,轻度缺锌或缺锌初期会使叶绿素含量上升和根系氧化力下降,但严重缺锌时,则使叶绿素含量显著降低,而使根系氧化力明显增加。锌敏感品种比耐缺锌品种的变化更为明显。锌离子活度对秧苗的含水量也有明显的影响。因此,耐低锌基因型在低Zn2+活度条件通过保持较低的根氧化作用,促进根系生长以维持地上部新叶生长,达到低锌适应稳态。     

低磷胁迫对不同基因型水稻阶段生物学特征的影响

采用盆栽试验研究了低磷胁迫下不同基因型水稻在分蘖期、孕穗期和成熟期的生物学特征。结果表明,不同基因型水稻在不同的生长发育阶段对低磷胁迫的反应存在明显差异。分蘖期,耐低磷基因型水稻的耐低磷特性主要表现在相对分蘖数、相对绿叶数和相对地上部干重三个性状上,其中以相对分蘖数的差异较大,但这个时期水稻的任一性状不足以反映其耐低磷特性;孕穗期,耐低磷基因型水稻的相对分蘖数、相对绿叶数和相对地上部干重虽仍表现出明显的优势,但与分蘖期不同的是相对分蘖数受低磷胁迫的影响程度趋于稳定,相对绿叶数的差异明显下降,相对干重的高低逐步成为区别耐低磷基因型的主要依据;成熟期,耐低磷基因型的相对地上部干重优势进一步加强,远远超过其它生物学性状。耐低磷基因型的相对经济产量显著高于低磷敏感基因型。在水稻生长的各个时期中,耐低磷基因型水稻的相对株高、相对叶宽和相对叶长与低磷敏感基因型水稻对应的指标相比均未表现出明显差异。     

UV-B辐射增强下水稻苗期硅营养性状的QTL定位及其与环境互作效应分析

以"Lemont"和"Dular"杂交建立的包含123个家系的水稻重组自交系(RILs)群体为材料,选用水稻根系硅吸收能力和叶片硅利用率为指标,进行水稻硅营养遗传性状QTL定位,并分析其与UV-B辐射增强的互作效应。结果表明,控制水稻叶片硅利用率的4个加性QTL分别在第2、3、10染色体上,而控制根系硅吸收能力的1个加性QTL位于第11染色体上。QTL与UV-B辐射互作分析发现2对控制根系硅吸收能力和3对控制叶片硅利用率的基因×环境上位性QTL,其中只有1对控制根系硅吸收能力的QTL效应值较大。说明水稻这两种硅营养性状中,根系硅吸收能力较叶片硅利用率受UV-B辐射影响大,在抗UV-B辐射育种中以叶片硅利用率为水稻硅营养遗传选择的指标具有较高效率。     

低磷胁迫对水稻地上部氮、钾吸收和积累的影响

在盆栽土培条件下,采用耐低磷水稻基因型508T、580T、99011T和99112T及低磷敏感基因型99012S和99056S为材料,研究了不同生育时期,低磷胁迫对水稻氮、钾吸收和积累的影响。结果表明,在分蘖期,低磷处理对水稻体内氮、钾含量的影响较小,但低磷敏感基因型水稻受影响较大;孕穗期,除508T的氮含量变化不明显外,其它基因型体内氮、钾含量均显著增加。在这两个时期,低磷敏感基因型99012S氮、钾含量的变化幅度在所有基因型中最高,而另一个低磷敏感基因型99056S则相反。至成熟期,由于受吸收效率和转运效率的共同影响,不同基因型水稻体内氮、钾含量的变化趋势明显比生育前期复杂,耐低磷基因型水稻茎叶的氮、钾含量与低磷敏感基因型没有明显的差异。在生育前期,耐低磷基因的氮、钾积累量显著高于低磷敏感基因型;生育后期,耐低磷基因型的绝对积累量优势消失,但相对积累量优势变大。     

川中丘区玉米氮高效品种筛选及增产潜力分析

为探究高产氮高效玉米品种在减肥增效措施中的增产潜力,本研究通过对川中丘陵区近十年11个主推玉米品种在2个环境(简阳和中江)和3个氮水平[0(LN)、150(MN)和300 kg·hm^-2(HN)]下的田间产量及产量构成因子等进行方差和相关性分析,依据产量的基因型×氮互作效应对玉米品种进行氮效率分类,研究不同类型玉米的增产潜力以及与增产潜力有关的产量性状。结果表明,基因型、氮、环境及其互作显著影响玉米产量,基因型×氮互作显著影响穗粗和百粒重;11个试验玉米品种存在氮效率的基因型差异,包括双高效型、高氮高效型、耐低氮型和双低效型4种类型,其中双高效型和高氮高效型占总数的45.5%,其在HN和LN的增产潜力分别为6.74%～7.54%和9.88%～13.45%;高产氮高效品种(双高效型和高氮高效型)在2个试验点的节氮潜力差异较大,HN的节氮潜力可达19.18%以上;增产潜力与穗粗、百粒重等产量构成因子显著正相关;正红311、川单189和绵单1256在2个环境下均表现出高产氮高效品种特征。在川中丘陵区不同肥力的土壤上选择种植高产氮高效或耐低氮的玉米品种,通过合理施肥,可以...     

马铃薯品种（系）农艺性状的适应性和稳定性分析

马铃薯的丰产性、适应性和稳定性是马铃薯推广和应用的重要指标,各种环境因子对不同性状的作用有差异,需要在不同的生态区进行品种（系）的筛选与鉴定。为了筛选出广适、高产、稳产和适宜机械化作业的马铃薯品种（系）,本研究通过GGE双标图对马铃薯高代品系和国内主栽品种的产量和植株性状进行分析,同时阐述基因型与环境互作效应对产量性状和植株性状的影响。前期选育的22份高代品系和13份国内主栽品种分别于2020和2021年种植在渭源县、安定区和永昌县三个试点。测量主茎数等8个植株性状和小区产量等9个产量性状,应用联合方差分析进行显著性水平分析,GGE双标图进行适应性、丰产性和稳定性分析以及试点的区分力和代表性评价。应用联合方差分析结果表明,自然株高、绝对株高的基因型效应显著,基因型效应平方和占总变异平方和比为66.63%、56.56%;花序梗长、单株大薯产量的基因型与环境互作效应显著,互作效应平方和占总变异平方和比为27.86%、27.05%;分支数、单株产量的环境效应显著,环境效应平方和占总变异平方和比为55.82%、25.52%。GGE分析结果表明,品种（系）在不同的年份间,产量和稳定性表现总体较为...     

锌离子活度对水稻产量及子粒锌含量的影响及基因型差异

试验采用HEDTA螯合缓冲营养液培养法,选用子粒含锌量有明显差异的两个水稻基因型(碧玉早糯和浙农921),采用4种锌离子活度(pZn2+9.7,10.3,11.0,11.4),研究了锌离子活度对水稻产量和子粒锌积累、分配与子粒品质的影响及基因型差异。结果表明,锌离子活度通过对水稻有效穗数、每穗颖花数、结实率和千粒重的影响而显著影响水稻单株产量,其中影响最大的是单株有效穗数,其次是每穗颖花数,而对结实率的影响相对较小,但均存在明显的基因型差异。锌离子活度显著影响水稻子粒锌含量,随锌离子活度下降,水稻子粒含锌量降低,当锌离子活度低于pZn2+10.3时,两基因型水稻的含锌量均显著降低,但基因型间存在明显差异。不论在何种锌离子活度下,碧玉早糯的子粒含锌量均显著高于浙农921。从子粒锌分配看,颖壳、糙米、精米锌含量均随着锌离子活度提高而提高,当pZn2+从10.3升高到9.7时,碧玉早糯的糙米和精米锌含量开始降低,颖壳锌含量则开始超过糙米的锌含量继续升高;而浙农921糙米和精米锌含量的升高幅度较颖壳锌含量小。不同锌离子活度下,糙米和精米锌含量的比值在0.790~.90之间变化,并以pZn2+为9.7时为最小。因此,通过筛选子粒富锌水稻品种来提高稻米锌含量经济可行;通过增加环境锌离子活度,改善水稻的锌营养能显著提高水稻子粒的锌含量。     

Increased zinc supply does not inhibit cadmium accumulation by rice (Oryza sativa L.)

Rice (Oryza sativa L.) grown on cadmium (Cd)-contaminated soils has caused health problems in Asian subsistence rice farmers. For other crops, normal co-contaminant zinc (Zn) inhibits the increased uptake of Cd. We used a multi-chelator-buffered nutrient solution to characterize the interaction of Zn and Cd in uptake-translocation of Cd in “Lemont” rice. The activity of free Zn²⁺ varied from 10^?7.6 to 10^?5.2 M, while free Cd²⁺ held constant at 10^?10.7 M. Zinc activity 10^?5.6 M and higher was phytotoxic to rice, resulting in severe chlorosis, reduced growth, and increased Cd transport to shoots. In contrast to previous studies with wheat, lettuce, and spinach, free Zn²⁺ maintained at adequate to sub-phytotoxic levels (10^?7.6 to 10^?6.1) did not inhibit Cd uptake by rice. The inability of Zn to inhibit Cd uptake by rice is a key factor in Cd risk from zinc-lead mine waste contaminated soil compared with other crops.     

The evaluation of supply parameter,a new index of zinc availability in Mollisols

A new zinc supply parameter taking into account the intensity, quantity and buffering capacity and also the relative competitive influence of Cu²⁺, Fe²⁺, Mn²⁺ on the availability of Zn²⁺ has been tested. The proposed parameter correlated significantly and positively to Bray's per cent yield and zinc concentration in some parts of rice plant. The critical limit of soil zinc, in terms of this parameter at 15° and 30°C for rice, were 0.51 and 0.97 respectively. The required zinc addition to the deficient soil was also calculated on the basis of the values of this parameter at 30°C.     

Zinc uptake kinetics in the low and high‐affinity systems of two contrasting rice genotypes

Rice (Oryza sativa L.) cultivars differ widely in their susceptibility to zinc (Zn) deficiency. The physiological basis of Zn efficiency (ZE) is not clearly understood. In this study, the effects of Zn‐sufficient and Zn‐deficient pretreatments on the time and concentration‐dependent uptake kinetics of Zn were examined at low (0–160 nM) and high Zn supply levels (0–80 μM) in two contrasting rice genotypes (Zn‐efficient IR36 and Zn‐inefficient IR26). The results show that ⁶⁵Zn²⁺ influx rate was over 10 times greater for the Zn‐deficient pretreatment plants than for the Zn‐sufficient pretreatment plants. At low Zn supply, significant higher ⁶⁵Zn²⁺ influx rates were found for the Zn‐efficient genotype than for the inefficient genotype, with a greater difference (over three‐fold) at Zn supply > 80 nM in the Zn‐deficient pretreatments. At high Zn supply levels, however, a difference (2.5‐fold) in ⁶⁵Zn²⁺ influx rate between the two genotypes was only noted in the Zn‐deficient pretreatments. Similarly, the ⁶⁵Zn²⁺ accumulation in the roots and shoots of Zn‐efficient IR36 pretreated with Zn‐deficiency were sharply increased with time and higher than that in the Zn‐inefficient IR26 with an over four‐fold difference at 2 h absorption time. However, with Zn‐deficient pretreatments, the Zn‐efficient genotype showed a higher shoot : root ⁶⁵Zn ratio at higher Zn supply. Remarkable differences in root and shoot ⁶⁵Zn²⁺ accumulation were noted between the two genotypes in the Zn‐deficiency pretreatment, especially at low Zn level (0.05 μM), with 2–3 times higher values for IR36 than for IR26 at an uptake time of 120 min. There appear to be two separate Zn transport systems mediating the low and high‐affinity Zn influx in the efficient genotype. The low‐affinity system showed apparent Michaelis–Menten rate constant (K_m) values ranging from 10 to 20 nM, while the high‐affinity uptake system showed apparent K_m values ranging from 6 to 20 μM. The V_max value was significantly elevated in IR36 and was 3–4‐fold greater for IR36 than for IR26 at low Zn levels, indicating that the number of root plasma membrane transporters in low‐affinity uptake systems play an important role for the Zn efficiency of rice.     

Responses of Canola Morphological and Agronomic Characteristics to Zeolite and Zinc Fertilization under Drought Stress

Research was performed during the 2010 and 2011 growing seasons to investigate the effect of zeolite and zinc (Zn) foliar application on the qualitative characteristics and oil yield of canola cultivars at different moisture regimes. A factorial split-plot experiment was performed on the basis of the randomized complete block design with three replications in the Seed and Plant Improvement Institute, Karaj, Iran. The treatments were as follows: (1) irrigation (I), complete (I₁), and restricted (I₂) at the pod formation stage, (2) zeolite (Z), 0 (Z₁), and 15 t ha^?1 (Z₂), and (3) Zn, zinc sulfate concentrations of 0%, 0.1%, and 0.2 % (Zn₁, Zn₂, and Zn₃) at the pod formation stage. These treatments were applied on Licord, RGS003, and Opera cultivars. The results show that the simple effect of treatments were statistically significant for all assessed traits at P < 0; as well as the interaction effects of Z and Zn (P < 0.01) and the interaction effects of I and cultivar (P < 0.01). The greatest rates of all studied traits were obtained by applying Z₂Zn₂ (15 ton ha^?1 zeolite and 0.1% Zn sulfate) in both irrigation regimes. The rates of grain yield, biological yield, and harvest index improved by 43.82%, 73.99%, and 30.04%, respectively, using a combined application of Z and Zn. Therefore, based on the low cost of natural Z and a low Zn intake, these treatments could be used to enhance the performance of canola, especially in regions that are exposed to water stress.     

Effects of Zeolite and Zinc on Quality of Canola (Brassica napus L.) Under Late Season Drought Stress

The research was performed to investigate the effect of zeolite and zinc on the qualitative characteristics of canola cultivars at different moisture regimes. Factorial split plot experiment was performed on the basis of the randomized complete blocks design with three replications in Karaj, Iran. The treatments were: 1) irrigation (I): complete (normal irrigation) (I₁), and restricted irrigation (I₂) applied at the pod formation stage, 2) zeolite (Z): 0 (Z₁), and 15 t ha^?1 (Z₂), and 3) Zn: zinc sulfate concentrations of 0%, 0.1%, and 0.2% (Zn_1, Zn_2, and Zn₃) on Opera, Licord, and RGS003 cultivars. The highest rate of all studied traits was obtained by applying Z₂Zn₂ (15 ton ha^?1 zeolite and 0.1% zinc sulfate) in both irrigation regimes. Opera cultivar in normal irrigation and RGS003 cultivar in stress conditions had the highest yield and yield components, oil yield, and oil content.     

供锌水平对番茄果实抗氧化性及风味品质的影响

为研究不同供锌水平对番茄产量及果实风味品质的影响,设置了不同的硫酸锌浓度的溶液培养试验。结果表明,无论缺锌还是多锌处理,番茄叶片叶绿素含量均显著下降;MDA含量显著上升,POD酶活性下降,以缺锌处理较为明显;缺锌处理SOD酶活性显著低于对照,而多锌处理稍高于对照,产量均下降。缺锌和多锌处理番茄果实的酸度增加,Vc含量降低;缺锌处理可溶性固形物显著下降,而多锌处理与正常处理没有差别。此外,缺锌和多锌处理果实中的番茄红素、总酚和总黄酮含量均低于正常处理,而抗氧化力没有差别,果实的芳香物质种类组成也发生了变化。说明适宜的锌水平是保证番茄高产、优质的重要因素。     

Effects of Salinity and Water Stress on Echophysiological Parameters and Micronutrients Concentration of Pomegranate (Punica granatum L.)

In order to study the effects of salinity and drought stress on echophysiological parameters and micronutrients concentration of pomegranate leaves, a factorial experiment was conducted based on completely randomized design with 0, 30, and 60 mM of salinity levels of sodium chloride and calcium chloride (1:1) and three irrigation intervals (2, 4, and 6 days) with three replications on ‘Rabab’ and ‘Shishegap’ cultivars of pomegranate. The results analysis of shoot and root indicated that the water salinity and drought affected the concentration of iron (Fe²⁺), zinc (Zn²⁺), copper (Cu²⁺) and manganese (Mn²⁺) in pomegranate leaves and roots. Mineral concentration of zinc (Zn²⁺), copper (Cu²⁺) and manganese (Mn²⁺) in roots and manganese (Mn²⁺) in shoot was increased with increasing salinity. Drought treatments decreased the concentration of Zn²⁺ in the shoot and increased Zn²⁺ in roots. Both cultivars showed significant differences in the Fe²⁺ concentrations of shoot, however the most accumulation of Fe²⁺ was observed in ‘Shishegap’ cultivar.