盐逆境胁迫下施钾对降低小麦盐害的生理效应研究

在盐逆境下施用钾肥可以增加小麦灌浆期旗叶的叶绿素含量,延长叶片的功能期,提高植株叶片的K+及K+/Na+,增强叶片的保水能力,提高旗叶光合速率和籽粒产量。在本试验条件下,以施用K2O 90kg/hm2处理效果最佳,在此基础上再增加施钾量则效果下降。     

Genotypic Variation of Sweetpotatoes Grown Under Low Potassium Stress

Abstract

Ninety‐four sweetpotato (Ipomoea batatas L.) genotypes were compared under low potassium (K) stress (35 mg kg^?1 dry soil) over two growing seasons. Potassium utilization efficiency ratio (KER), defined as the dry matter weight/K content, was significantly different among genotypes. Genotypes were divisible into four KER categories: high efficient, efficient, fairly efficient and inefficient with most of the genotypes falling in the efficient and fairly efficient groups. The K contents varied significantly within individual plants. Potassium concentration on a dry weight basis was greatest in the petioles followed by leaves, stems, and roots. On a total plant basis, K content in roots was greatest followed by stems, leaves, and petioles. Several genotypes (including 602 × 81‐3, Zhe15‐47 and Xushu18) were selected as most suitable for growth on soils low in available K due to their appreciable yields and higher KER under low K stress.     

A nutritional disorder in pistachio from near Athens,Greece

Abstract

A problem pistachio orchard near Athens, Greece had many trees with severely scorched leaves. Half or more of each leaflet v/as brown and dry but tips and edges were most affected. Affected leaves were also of lighter green color than normal leaves and slightly resembled Fe deficiency. Leaf analysis indicated low K, low Fe, and high Mg. Irrigation water contained moderate levels of Mg and Na chlorides and chloride toxicity was possibly another factor. Improvement was observed when Fe chelate was applied to the orchard but Mg‐induced K deficiency was possibly a major factor. Response to K applied to soil was not observed after four months, however.     

青海白唇鹿公鹿血钾指标和红细胞钾型的研究

采用火焰光度法对青海省大通种牛场18头白唇鹿公鹿三项血钾指标和红细胞钾型进行了研究。结果发现:①被检青海白唇鹿公鹿的血清钾离子浓度为3.7±0.8mmol/L,全血钾离子浓度为27.4±3.0mmol/L,红细胞钾离子浓度为75.4±10.1mmol/L;②按红细胞钾离子浓度判定,全部被检青海白唇鹿公鹿的红细胞钾型为高血钾型。     

钾对猕猴桃果实品质与贮藏的影响

为提高猕猴桃果实品质与耐贮性,以7年生美味猕猴桃品种米良1号(Actinidiadeliciosacv.Miliang-1)为试材,进行果实生长发育期施钾处理对果实品质与贮藏性能影响的研究。结果表明:适量施钾能提高果实硬度及可溶性固形物与维生素C含量,降低果实含酸量,提高果实耐贮性。在0-4℃贮藏条件下,以株施纯K2O80g+叶面喷施0.3%硫酸钾处理果实贮藏效果最佳,贮藏73d时,其软果率最低(15.56%),果肉硬度最高(0.27MPa)。同时果实维生素C含量的下降趋势较为平缓,果实贮藏寿命延长。贮藏6个月时,株施纯K2O80g+叶面喷施0.3%硫酸钾处理的果实好果率(68.89%)明显高于对照果实(0)。     

氮磷钾施肥比例对枣幼树生长、结果和果实品质的影响

 以‘大瓜枣’为试材，用盆栽试验研究了氮磷钾施肥比例对枣幼树生长、结果和品质的影响，结果表明，氮磷钾比例为2∶1∶2时，生长中庸，树形结构合理，可显著提高坐果和产量。氮磷钾比例为2∶1.5∶3时，可显著促进生长，较丰产，可溶性固形物含量高,两种比例均可作为施肥参考。施用有机肥可增进品质。     

Pineapple organic acid metabolism and accumulation during fruit development

Developmental changes in pineapple (Ananas Comosus (L.) Merrill) fruit acidity was determined for a ‘Smooth Cayenne’ high acid clone PRI#36-21 and a low acid clone PRI#63-555. The high acid clone gradually increased in fruit acidity from 1.4 meq/100 ml 6 weeks from flowering, and peaked a week before harvest at ca 10 meq/100 ml. In contrast, the low acid clone increased in acidity 6 to 8 weeks after flowering, peaked 15 weeks after flowering at ca. 9 meq per/100 ml and then sharply declined in 2 weeks to 6 meq/100 ml. The increased in total soluble solids (TSS) of the low acid clone began 6 weeks after flowering and for the high acid clone at 12 weeks after flowering. The increase in titratable fruit acidity (TA) paralleled the changes in the citric acid content of both clones. Citric acid content increased from less than 1 mg/g at 6 weeks after flowering to 6 to 7 mg/g, 9 weeks later. The malic acid concentration in both clones varied between 3 and 5 mg/g and showed no marked changes just before harvest. The developmental changes in fruit potassium were significantly correlated with fruit acidity and fruit total soluble solids in both the high and low acid clones. Developmental changes in acid-related enzymatic activities showed an increase in citrate synthase (EC 4.1.3.7) activity that occurred a week before harvest, coincided with the peak in citric acid in the high acid clone. An increase in aconitase (ACO, EC 4.2.1.3) activity was observed just before harvest as the decline in acidity occurred in the low acid clone. The activities of phosphoenolpyruvate carboxylase (PEPC, EC 4.1.1.31), malate dehydrogenase (MDH, EC 1.1.1.37) and malic enzyme (ME, EC 1.1.1.40) did not parallel any changes in fruit acidity. The results indicated that the change in pineapple fruit acidity during development was due to changes in citric acid content. The major difference in acid accumulation occurred in the low acid clone just before harvest when acidity declined by one-third. The activities of citrate synthase and aconitase possibly played a major role in pineapple fruit acidity changes.     

Adipocyte-derived relaxing factor,a new vasodilative factor

Although our knowledge of ADRF (adipocyte-derived relaxing factor) is extremely limited,the little that is known has already revealed a promising future in this newly found factor.Firstly,it is secreted by adipose tissue,which is a abundantly and extensively distributed in human body and has become a hot spot for research work in recent years.Secondly,ADRF has shown a significant vasodilative action in a considerable number of experiments conducted on arteries of various sizes,from different body parts of different species of animals,including human.In this article,we introduce the development of ADRF research,sum up its known properties,including its Ca2+,protein tyrosine kinase,and protein kinase A dependent releasing,K+ channel mediated functioning,and interfered effect in different pathological models,and propose problems surrounding this factor and directions for future research work.     

Potato brown rot incidence and severity under different management and amendment regimes in different soil types

Ralstonia solanacearum race 3 biovar 2, the causative agent of potato brown rot (bacterial wilt), is an economically important disease in tropical, subtropical and temperate regions of the world. In view of previous reports on suppression of the disease by organic amendments, and the expansion of organic agriculture, it was timely to compare the effects of organic and conventional management and various amendments on brown rot development in different soils (type: sand or clay; origin: Egypt or the Netherlands). Brown rot infection was only slightly reduced in organically compared to conventionally managed sandy soils from Egypt, but organic management significantly increased disease incidence and pathogen survival in Dutch sandy and clay soils, which correlated with high DOC contents in the organic Dutch soils. There was no correlation between disease incidence or severity and bacterial diversity in the potato rhizosphere in differently managed soils (as determined by 16S DGGE). NPK fertilization reduced bacterial wilt in conventional Egyptian soils but not in Dutch soils. Cow manure amendment significantly reduced disease incidence in organic Dutch sandy soils, but did not affect the bacterial population. However, cow manure did reduce densities of R. solanacearum in Egyptian sandy soils, most probably by microbial competition as a clear shift in populations was detected with DGGE in these and Dutch sandy soils after manure amendment. Amendment with compost did not have a suppressive effect in any soil type. The absence of a disease suppressive effect of mineral and organic fertilization in Dutch clay soils may be related to the already high availability of inorganic and organic nutrients in these soils. This study shows that the mechanism of disease suppression of soil-borne plant pathogens may vary strongly according to the soil type, especially if quite different types of soil are used.