[Objective] This study was conducted to select wheat varieties with high P use efficiency. [Method] A field experiment was carried out with 112 wheat germplasm varieties as experiment materials under normal (NP) and...[Objective] This study was conducted to select wheat varieties with high P use efficiency. [Method] A field experiment was carried out with 112 wheat germplasm varieties as experiment materials under normal (NP) and low phosphorus (LP) conditions, and with Jimai 22 as control, genotypes with high P use efficiency and excellent yield traits were selected. [Result] Compared with NP treatment, 8 wheat yield-related traits, spike number per plant, thousand-grain weight plant height, spike length, fertile spikelet number per spike, grain number per spike, grain weight per plant and above-land weight per plant, and 3 P content traits, grain, straw and above-land P contents per plant decreased significantly under LP condition (P〈〈 0.05), while 3 P utilization efficiency traits, grain, straw and aboveground P utilization efficiencies increased obviously, indicating that low P stress would greatly reduce yield and P content of wheat at adult stage, but would remarkably improve P utilization efficiency. Correlation analysis showed that plant height, fertile spikelet number per spike and grain weight per plant and straw and above-land P concentrations were in significant positive correlation with 3 P content traits, grain, straw and above-land P contents per plant, and in significant negative correlation with 2 Putilization efficiency traits, straw and above-land P utilization efficiencies (P〈0.01), and could serve as indexes for preliminary rapid evaluation of P use efficiency. Under NP treatment, 17 genotypes with high P use efficiency were selected, and among them, Hanxuan H28, 2010 Pin 4891 and Zhoumai 28 showed grain weights per plant higher than Jimai 22 by 36.07%, 31.96% and 37.44%, respectively, and above-land P utilization efficiency higher than Jimai 22 by 49.34%, 49.42% and 33.05%, respectively; and under LP treatment, 10 genotypes with high P use efficiency were selected, and among them, Henong 826 showed grain weight per plant and above-land P utilization efficiency higher than Jimai 22 by 37.60% and 20.42%, respectively. Furthermore, Hanxuan H23, Hanxuan H28 and Xumai 856 were identified as genotypes with high P use efficiency under both NP and LP treatments. [Conclusion] This study provides good parent materials for breeding of varieties with high P use efficiency.展开更多
(续上期“Index numbers ofindusttrial production,bycountries”)The basic concepts and methodologyrecommended by the Statistical Commissionfor the construction of industrial productionindexes may be found in lndex Numbe...(续上期“Index numbers ofindusttrial production,bycountries”)The basic concepts and methodologyrecommended by the Statistical Commissionfor the construction of industrial productionindexes may be found in lndex Numbers ofIndustrial Production.With very few ex-@1ceptions,the indexes are calculated accord-ing to the Laspeyres formula using eitherthe weighted average of quantity展开更多
基金Supported by Jinan Agricultural Science and Technology Innovation Project(201313,201404)Jinan Science and Technology Planning Project(201401103)~~
文摘[Objective] This study was conducted to select wheat varieties with high P use efficiency. [Method] A field experiment was carried out with 112 wheat germplasm varieties as experiment materials under normal (NP) and low phosphorus (LP) conditions, and with Jimai 22 as control, genotypes with high P use efficiency and excellent yield traits were selected. [Result] Compared with NP treatment, 8 wheat yield-related traits, spike number per plant, thousand-grain weight plant height, spike length, fertile spikelet number per spike, grain number per spike, grain weight per plant and above-land weight per plant, and 3 P content traits, grain, straw and above-land P contents per plant decreased significantly under LP condition (P〈〈 0.05), while 3 P utilization efficiency traits, grain, straw and aboveground P utilization efficiencies increased obviously, indicating that low P stress would greatly reduce yield and P content of wheat at adult stage, but would remarkably improve P utilization efficiency. Correlation analysis showed that plant height, fertile spikelet number per spike and grain weight per plant and straw and above-land P concentrations were in significant positive correlation with 3 P content traits, grain, straw and above-land P contents per plant, and in significant negative correlation with 2 Putilization efficiency traits, straw and above-land P utilization efficiencies (P〈0.01), and could serve as indexes for preliminary rapid evaluation of P use efficiency. Under NP treatment, 17 genotypes with high P use efficiency were selected, and among them, Hanxuan H28, 2010 Pin 4891 and Zhoumai 28 showed grain weights per plant higher than Jimai 22 by 36.07%, 31.96% and 37.44%, respectively, and above-land P utilization efficiency higher than Jimai 22 by 49.34%, 49.42% and 33.05%, respectively; and under LP treatment, 10 genotypes with high P use efficiency were selected, and among them, Henong 826 showed grain weight per plant and above-land P utilization efficiency higher than Jimai 22 by 37.60% and 20.42%, respectively. Furthermore, Hanxuan H23, Hanxuan H28 and Xumai 856 were identified as genotypes with high P use efficiency under both NP and LP treatments. [Conclusion] This study provides good parent materials for breeding of varieties with high P use efficiency.
文摘(续上期“Index numbers ofindusttrial production,bycountries”)The basic concepts and methodologyrecommended by the Statistical Commissionfor the construction of industrial productionindexes may be found in lndex Numbers ofIndustrial Production.With very few ex-@1ceptions,the indexes are calculated accord-ing to the Laspeyres formula using eitherthe weighted average of quantity
