DETERMINATION OF FOLIAR SAMPLING CONDITIONS AND STANDARD LEAF NUTRIENT LEVELS TO ASSESS MINERAL STATUS OF LOQUAT TREE

Loquat [Eriobotrya japonica (Thunb.) Lindl.] is a minor fruit-tree species which is grown commercially in the Mediterranean region. Given the current increase in loquat cultivation, there is a need to define basic crop-management procedures in order to obtain high yields and optimal fruit quality. The aim of this work was to develop a routine for loquat farmers to follow, in order to know the nutritional status of trees in order to establish a rational fertilization regime, and to correct nutrient deficiencies as soon as possible. This paper reports three experiments aimed at establishing: 1) leaf type, 2) time of leaf sampling and 3) the standard leaf nutrient levels as a function of maximum yield. Results indicate that the summer flush leaves could be the most representative of nutritional status. Thus, the most appropriate time to sample leaves for analysis is in summer (beginning of August to the end of September), taking mature 3–4 month old leaves.     

SEASONAL FLUCTUATION AND INTRACANOPY VARIATION IN LEAF NITROGEN LEVEL IN OLIVE

Seasonal fluctuation and intracanopy variation in leaf nitrogen (N) of bearing olive (Olea europaea L.) was assessed. The N concentration was high and stable during the wintertime (about 1.8% dwt). With the advancement of vegetative growth and reproductive development, N concentration in the leaves decreased sharply, reaching the lowest value (about 1.45 to 1.50% dwt) in summer months June, July, and early August, coincident with early fruit development. Among intracanopy factors studied, the largest single influence on N concentration was light exposure. Thus on average, over all leaf types and canopy heights, leaves from the south side of the tree had 11.8% more N than north side leaves. Consistencies with regarding sampling time, canopy locations, height, and nodal position of the leaf are critical for diagnosis of N status in the olive.     

Standardization of Litchi Leaf Nutrient Composition for Tissue Analysis in Sub Tropics of India

ABSTRACT

Variation in leaf nutrient composition with leaf age and position of leaflets was assessed for ‘Calcuttia’ and ‘Dehradun’ litchi cultivars under loam to sandy loam soils of north India. Leaf samples were collected from first to sixth pair of leaflets starting from the apex of terminal shoots to downward positions during December to May at monthly intervals at two locations for three successive years. The leaves were analyzed for N, P, K, Ca, Mg, Fe, Zn, Cu and Mn concentrations. In both litchi cultivars, leaf N, P, Zn and Cu contents remained more in young leaves; whereas, leaf Ca, Mg, Mn and Fe contents were observed higher in older leaves. Leaf K concentration exhibited inconsistent patterns; however, leaf K concentration in pair of leaflets on the shoot declined basipetal, being maximum in upper pair of leaflets and minimum in lower pair of leaflets. Levels of macro and micronutrients exhibited a degree of stability at second and third pair of leaflets when sampled during February–March. Leaf compositions differed significantly during active vegetative growth, flowering, and fruit development. The results revealed that 4–5 months old leaves from autumn flush at second and third pair of leaflets from the apex of terminal litchi shoots at the advent of panicle initiation (February–March) should be collected to assess the nutritional concentrations of litchi orchards under North India conditions.     

Ranges of nutrient concentrations in Quercus ilex leaves at natural and urban sites

The leaf nutrient concentrations and the N‐to‐nutrient ratios were analyzed to evaluate the nutritional status of holm oaks (Quercus ilex L.) experiencing various anthropogenic pressures. Leaves (1 year old) of Q. ilex and surface soil (0–5 cm) surrounding the trees were collected at seven natural and seven urban sites in Campania Region (Southern Italy) and analyzed for the concentrations of macro (C, N, P, S) and micronutrients (Mn, K, Na, Cu, Mg, Ca, Fe, Zn). The available soil fraction of micronutrients was also evaluated. The nutrients showed different concentration ranges for the natural and the urban sites in the soil (total and available) and in the leaves, that we reported separately. Organic‐matter content and macronutrient concentrations were higher in the natural soils, while the highest leaf N, S, and P concentrations were found at some urban sites. Concentrations of Cu, Na and Zn both in leaves and soil, and Mg and Fe in leaves from the urban sites appeared to be affected by air depositions. Manganese was the only micronutrient to show higher concentrations at the natural than at the urban sites, both in soil and leaves. For this nutrient, in addition, a relationship between leaf and available soil concentrations was found at the natural sites. The ratios between the concentrations of N and each studied nutrient in the leaves highlighted a different nutritional status between the plants from the natural and urban sites.     

Nitrogen nutrition diagnosis for olive trees grown in super-intensive cropping systems

Abstract

The results of a 4-year experiment combining irrigation, N, and K showed that to maintain productivity and tree growth it is necessary to attain a higher leaf N status than current diagnosis standards. To sustain high oil yield and quality and to avoid excessive vigor, a critical N concentration was established for olive trees of 1.94% for leaves sampled in July. A negative relationship was obtained between N leaf concentration and some quality parameters. Above 1.94% N, total phenolic content and oxidative stability fell below 220?mg kg^?1 and 10?hr, respectively. In addition, above this N leaf concentration other factors including the alternate bearing index (ABI) and vegetative growth distorted productive and qualitative responses. Moreover, the differential productive response of trees related to alternate fruit bearing status implies that the interpretation of leaf nitrogen content can be more accurate when ABI suggests an ON tree status.     

Standardization of Leaf Sampling Technique in Bael

Abstract

The chemical diagnosis of nutritional status of Bael (Aegle marmelos Correa) tree by leaf analysis was done to study the effect of leaf age and leaf position on foliar nutrient composition of Bael. The results showed that leaf age has significant influence on leaf mineral content, whereas the position of leaf on shoot did not have any significant effect. Interactions between leaf age and position were found to be significant for nitrogen, boron and iron content. In general, stability in level of nitrogen (N), phosphorus (P), and potassium (K) contents was observed in November–December (6‐ to 7‐month‐old leaves) and calcium (Ca) and magnesium (Mg) showed their stability in 2‐to 3‐month‐old leaves (July–August). The contents of boron (B), manganese (Mn), copper (Cu), and zinc (Zn) were found stabilized in September–October (3‐ to 4‐month‐old leaves), indicating their suitability for sampling in Bael.     

Treated municipal wastewater for citrus irrigation 1

Treated, reclaimed municipal wastewater was evaluated on citrus trees in central Florida for over six years. The effects of irrigation with reclaimed wastewater on soil water content, soil chemical analysis, leaf mineral status, and fruit quality were compared with those of irrigation with well water. Irrigation with reclaimed water increased mineral residues in the soil profile, altered leaf mineral concentration and fruit quality, and promoted better tree performance and more weed growth relative to irrigation with well water. Higher accumulation of nitrogen (N), potassium (K), calcium (Ca), and magnesium (Mg) in soils irrigated with reclaimed water were not significantly reflected in leaf mineral status. Although leaf sodium (Na), chloride (Cl), and boron (B) concentrations were noticeably higher in reclaimed water treatments than in those of well water, they are still far below the toxicity levels. This highly treated wastewater in central Florida has been found to be a very safe and good option for increasing water supplies, but not a significant source of plant nutrients to citrus trees.     

采用柑橘叶片功能性氮含量无损监测模型的调控施氮方法

为实现柑橘氮素管理的定量化，该研究以5年生‘春见’橘橙为试验材料，设置不同对照施氮处理N₀、N₁、N₂、N₃(施氮量分别为0、50、100、200 g/株)和调控施氮处理Nr₁、Nr₂、Nr₃(分别根据N₁、N₂、N₃进行调控)，在试验开展的第1年利用高光谱技术，分别建立柑橘果实膨大期和转色期的叶片功能性氮含量无损监测模型；第2年利用叶片功能性氮含量无损监测模型与追氮量公式计算调控施氮处理的实际追氮量，比较分析对照施氮和调控施氮对柑橘果实产量、品质及氮肥利用率的影响。结果表明，利用反向传播神经网络构建的叶片功能性氮含量模型精度较高，决定系数R²为0.78(果实膨大期)和0.77(果实转色期)。调控施氮处理Nr₁和Nr₃比对照施氮N₁和N₃分别增产5.49和4.4...     

氮素对苹果果实内源激素变化动态与发育进程的影响

以8年生红富士/平邑甜茶(M.domestica Borkh.cv.RedFuji/M.hupenensis Rhed)盛果期树为试材,研究重疏果条件下土壤施氮对苹果果实发育影响。结果表明,花后15周前施氮处理与对照单果重无显著差异,由于对照果实比施氮处理果实早1周左右进入迅速膨大期,此后3～4周对照果实单果重高于施氮处理,但对照果实比施氮果实早1周左右停止生长。由于施氮延长了果实生长期,采收时施氮处理平均单果重高于对照。施氮对GA3、ZRs、ABA与IAA的含量及其变化动态有较大影响,特别在果实细胞膨大期;施氮显著提高了这4种激素的含量,但其峰值出现较对照晚1～2周,并且GA3、IAA、ABA含量峰值出现的时间比果实相对生长速率(RGR)峰值出现的时间略早。植物生长调节剂处理不施氮果实,使果实生长期延长,单果重增加。这些结果表明,氮素通过影响果实的激素水平调控果实的生长动态。果实发育进程的变化导致了有关品质指标的变化,主要表现为随施氮量增加,果实水分含量增加,果皮叶绿素与果肉可滴定酸浓度提高,果皮花青苷与果肉可溶性糖浓度降低。     

RESPONSE OF ‘BURLAT’ SWEET CHERRY TREES TO POSTHARVEST SPRAYS OF NITROGEN,BORON AND ZINC

The aim of the study was to examine effects of postharvest sprays of nitrogen (N), boron (B), and zinc (Zn) on reproductive response of sweet cherry (Prunus avium L.) trees, fruit quality and plant nutrition. The experiment was conducted during 2007–2009 in central Poland on mature ‘Burlat’ sweet cherry trees/F12, grown on a coarse-textured soil with low level of organic matter, and optimal soil reaction. Soil status of phosphorus (P), potassium (K), magnesium (Mg), calcium (Ca), iron (Fe), manganese (Mn), Zn and copper (Cu) was optimal, whereas B – low. Sweet cherry trees were sprayed with boric acid-B, ethylenediaminetetraacetic acid (EDTA)-Zn, and urea-N at 30–40 d prior to initiation of leaf fall according to following schema: i) spray of N at a rate of 23 kg ha^?1; ii) spray of B and Zn at a dose of 1.1 kg ha^?1 and 0.5 kg ha^?1, respectively; and iii) spray of N, B and Zn at the same rates as in the above spray combinations. The trees sprayed with water served as the control. The results showed that fall spray treatments had no influence on cold damage of flower buds, plant N status and soluble solids concentration in fruit. Postharvest spray of N and combined spray of N, B and Zn injured leaves in the fall but did not cause defoliation. Sprays of B and Zn with or without N increased status of Zn and B in fall leaves, and B in flowers and midsummer leaves. Those sprays also improved fruit set and yield. In one out of two years of the study, fall sprays of N with or without B and Zn decreased mean fruit weight. The above results indicate that only leaf-applied B in the fall improved reproductive response of sweet cherry trees. It is concluded that under conditions of B shortage in a soil and/or plant tissues, postharvest B sprays can be recommended in sweet cherry orchards to improve reproductive growth of the trees.     

西瓜钾营养诊断的叶片含量法分析

采用不同土壤钾水平的多点田间试验,研究了施用钾肥对西瓜植株钾含量以及产量、品质的影响,探讨了西瓜植株各叶位钾含量与西瓜产量之间的相关性,分析了叶片钾含量诊断西瓜钾营养的临界指标。结果表明:西瓜新叶钾含量与西瓜产量达极显著相关关系,相关系数为0.600 8(P_(0.01)=0.575)。90%相对产量下新叶钾含量为32.6 g/kg时,西瓜产量可达91.39 t/hm~2。在极低钾含量(50 mg/kg和70 mg/kg)的土壤上,施用钾肥显著提高西瓜产量、开花期西瓜植株新叶和老叶钾含量;显著提高开花期、坐果期和膨大期西瓜植株茎和根中的钾含量。在低钾含量(84 mg/kg和85 mg/kg)的土壤上,施用钾肥显著提高西瓜产量,提高西瓜果实中的可溶性糖和可溶性固形物的含量而降低可滴定酸含量。随着钾肥施用水平的提高,新叶钾含量有提高趋势,老叶和挂果叶中的钾含量逐渐升高;施用钾肥显著提高坐果期和膨大期西瓜植株茎中钾含量。在中钾含量(170 mg/kg)和高钾含量(260 mg/kg)的土壤上,西瓜开花期新叶钾含量的最大值和最高产量相关联。总之,推荐开花期西瓜新叶钾含量32.61 g/kg为营养诊断临界值。     

Effects of the Frequency of Iron Chelate Supply by Fertigation on Iron Chlorosis in Citrus

Abstract

A field experiment was carried out in a drip‐irrigated orchard of Clementine (Citrus clementina Ort. ex. Tan) grafted on Troyer citrange (C. sinensis × Poncirus trifoliata) rootstock located in the Valencian Citrus area (Spain). The trees received a single iron (Fe) EDDHA (ethylene diamine diorthohydroxyphenyl acetate) rate (3 g Fe tree^?1) supplied in different application frequencies from April to September (8‐, 4‐, 2‐, or 1‐week intervals). Leaf chlorophyll (Chl) concentrations were estimated every month by using an SPAD‐502 meter. The foliar contents of Fe were also evaluated with time. Mineral composition of leaves, total Chl concentration, yield, and fruit quality were also evaluated at the end of the assay. SPAD readings, Chl, N, K, Mg, Fe, and Mn concentration in leaves increased as a result of Fe application. The concentration of Zn, however, significantly decreased in comparison to the control trees. Iron treatment increased yield and some of the fruit quality parameters, like total juice, sugar, and acid contents. Iron application frequency had not a consistent effect on the concentrations of macro and micronutrients in leaves, yield, and fruit quality. The highest values of SPAD readings and the leaf Chl content were obtained when Fe was applied at 4‐week intervals along the year. These results suggest that soil Fe‐EDDHA application with a moderate frequency could be recommended to the Citrus farmers in the area for a more rational Fe application along the growth cycle in Citrus orchards.     

Nitrogen Application Rate and the Concentration of Other Macronutrients in the Fruit and Leaves of Gold Kiwifruit

ABSTRACT

Gold kiwifruit (Actinidia chinensis Planch. var. chinensis ‘HORT16A’, marketed as ZESPRI?' ‘HORT16A’) is an important export crop for New Zealand. Nutrient management, including the application of nitrogen (N), for ‘HORT16A’ kiwifruit has mimicked strategies for the green (A. deliciosa ‘Hayward’) cultivar, however, physiological differences between Actinidia species necessitate the development of specific nutrient regimes for ‘HORT16A’ vines. In this trial, all nutrients, except N, were applied at levels comparable to commercial practice. The Control treatment received approximately 145 kg N ha/y, and was based on estimates of total N removed each year in the harvested fruit. The Zero-N treatment vines received all nutrients except N, and the High-N treatment received double the Control, approximately 295 kg N ha/y, for two consecutive seasons. The High-N treatment represents the upper limit of N application practices in commercial ‘HORT16A’ kiwifruit production. Zero-N fruit had higher calcium (Ca) and lower N concentration than High-N fruit in both seasons. Fruit potassium (K) and magnesium (Mg) concentrations were equivalent between these treatments in both seasons. Fruit phosphorus (P) concentration throughout the season was increased in the High-N treatment in both years. Fruit sizes were not different between treatments at final harvest in Year 1, being 130.5 ± 4.13 g, 125 ± 1.49 g, and 125 ± 3.29 g for the High, Control, and Zero-N vines, respectively. Larger fruit were harvested from the High-N vines (125 ± 4.69 g) in Year 2, than from either Control (113 ± 2.03 g) or Zero-N (118 ± 1.03 g) vines. Percent fruit dry matter (DM) content was higher in the Zero-N fruit (17.2 ± 0.06, 17.2 ± 0.06, and 16.8 ± 0.14 for Zero, Control, and High-N vines) at final harvest in Year 1. But values of fruit DM for all treatments were similar in Year 2 in spite of fruit size differences between treatments. Fruit DM for all treatments was slightly higher in Year 2 than in Year 1. Differences in fruit mineral concentration and fruit maturity at harvest may have contributed to increased incidence of low temperature breakdown (LTB) in the High-N fruit in Year 1. In Year 2, when fruit DM was higher in all treatments, yellow coloration was more developed. Total fruit N concentration was lower in Year 2 for all treatments than in Year 1, and LTB was minimal and not different between treatments.

Leaves from Zero-N vines had reduced N in both years compared with Control and High-N vines. In contrast, leaf Ca and Mg concentrations were reduced in High N-vines, compared with values recorded in Zero-N vines in both seasons. Leaf K concentrations were comparable between treatments in both seasons. Leaf sulfur (S) concentration was reduced under the High-N treatment, and leaf P levels were increased under the High-N treatment in both years.

These data demonstrate that N application influences the uptake and accumulation of other mineral elements in ‘HORT16A’ kiwifruit. In order to encourage desirable nutrient concentrations in both the fruit and leaves of ‘HORT16A’ kiwifruit, a reduction in N applied is suggested, and this would have little or no detrimental effect on vine performance over two seasons. Reduced N application will also reduce nitrate leaching which is estimated at 39 kg N ha/y under the Control treatment.     

Floral Analysis and Seasonal Dynamics of Mineral Levels in Carob Tree Leaves

The mineral concentration of flowers and the seasonal fluctuation of macro- [nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), and magnesium (Mg)] and micronutrients [iron (Fe), manganese (Mn), zinc (Zn), and copper (Cu)] in leaves of male, female, and hermaphroditic carob trees (Ceratonia siliqua L.) were studied. The nutrient dynamics were linked not only to phenological events, but also to the gender of the trees. The females were able to allocate more nutrients to leaves than male trees, even though male flowers were richer in particular elements such as N and Zn. The hermaphrodites supported the development of both inflorescences and fruits with a lower seasonal variation and a lower leaf nutrient concentration, as compared to the other genders, which may indicate a more efficient use of resources. Flowers had, in general, a higher concentration of N, P, and K, and a lower Mn concentration than in leaves. Flowers of the females had a lower nutrient concentration compared to males or hermaphrodites.     

Impact of Postharvest Sprays of Nitrogen,Boron and Zinc on Nutrition,Reproductive Response and Fruit Quality of ‘Schattenmorelle’ Tart Cherries

The aim of the study was to examine effects of fall sprays of nitrogen (N), boron (B) and zinc (Zn) on nutrition, reproductive response, and fruit quality of tart cherry (Prunus cerasus L.). The experiment was conducted during 2008–2010 in Poland on mature ‘Schattenmorelle’ sour cherry trees, planted at a spacing of 4.0 × 1.5 m on a coarse-textured soil with low level of organic matter, and adequate reaction and availabilities of macro- and micronutrients. Tart cherries were sprayed with boric acid-B, ethylenediaminetetraacetic acid (EDTA)-Zn, and urea-N at 40–50 d prior to initiation of leaf fall according to following schema: (i) spray of N at a rate of 23 kg ha^?1; (ii) spray of B and Zn at doses of 1.1 kg ha^?1 and 0.5 kg ha^?1, respectively; and (iii) spray of N, B, and Zn at the same rates as in the above spray combinations. The trees sprayed with water were served as the control. The results showed that postharvest spray treatments had no effect on defoliation, cold damage of flower buds, fruit set, yielding, plant N status, mean fruit weight, and soluble solids concentration in fruit. Postharvest sprays of B and Zn with or without N enhanced status of Zn and B in fall leaves, and B in flowers but had no impact on levels of the above micronutrients in summer leaves. Leaf-absorbed B was withdrawn in the fall, whereas Zn was immobile. It is concluded that postharvest B sprays can be recommended to increase B status in flowers of tart cherry, whereas fall sprays of urea-N and Zn are not able to improve plant nutrition of those nutrients the following season.     

Best Nitrogen and Irrigation Management Practices for Citrus Production in Sandy Soils

Drinking water monitoring data have indicated anincrease in nitrate-nitrogen (NO₃-N) concentration ingroundwater in some parts of the citrus production region ofFlorida. A proactive, incentive-based program of developingcrop-specific best management practices (BMP) began with theFlorida N-BMP legislation passed in 1994. A combination ofcareful irrigation and nitrogen (N) management is needed toimprove N uptake efficiency and to minimize potential leaching ofnitrate (NO₃-N) to the groundwater. An improved Nmanagement practice is considered as a BMP, only if that practiceis proved to decrease NO₃-N leaching into groundwater incommercial groves without adversely impacting the economics ofproduction. Therefore, long-term evaluation of horticulturalresponses as well as monitoring of groundwater NO₃-N wereconducted in five commercial groves representing different soiltypes, citrus variety and rootstock, tree age, and culturalpractices to determine the impact of changes in N managementand/or irrigation scheduling. Groundwater NO₃-N, leafnutrient concentrations, fruit yield and fruit quality weremonitored for 15 months under the growers' routine managementand, subsequently for 48 months, with improved N and irrigationmanagement practices. The N management practices evaluated inthis study included broadcast application of a combination ofwater soluble and slow release granular products, fertigation,and a combination of foliar application and fertigation. Irrigation management was improved by using tensiometer set pointof 10 and 15 cbar. This article presents the fruit yield, andconcentrations of N, P, K in six-month spring flush during thestudy period. The study showed that 5 to 8 yr old Valenciatrees on Volkamar lemon rootstock produced high quality fruit inthe range of 59 to 81 Mg ha^-1 with 168 kg N ha^-1 asfertigation combined with improved irrigation scheduling. Fruityield of 36 yr old Valencia orange trees on Rough lemonrootstock was greater with application of 180 kg N ha^-1 yr^-1 as fertigation compared to that of the trees whichreceived a similar rate of N as three broadcast applications ofgranular product. Fertilizer program comprising three foliarapplications of N using low biuret urea to deliver 66 kg N ha^-1 yr^-1 and an additional 76 kg N ha^-1yr^-1as fertigation was the most effective for decreasing the surficialgroundwater NO₃-N while maintaining optimal fruit productionand nutritional status of the leaves. This study demonstratedthat economically and technically feasible N-BMPs can bedeveloped for citrus grown on sandy soils with a combination ofimproved N management and irrigation scheduling.     

STANDARDIZATION OF TIME OF SAMPLING FOR LEAF NUTRIENT DIAGNOSIS ON KINNOW MANDARIN IN NORTH-WEST INDIA

The first full and comprehensive attempt was made to standardize the time of sampling for the leaf nutrient diagnosis for Kinnow mandarin in North West semi arid zone of India by analyzing ten essential elements collected from spring cycle leaves. The samples were collected from February to January at monthly intervals for two years and the results revealed that the 6–7 month (August–September) old spring cycle leaves collected from terminal position of non- fruiting terminal is the best suitable time for foliar nutrient analysis in Kinnow mandarin grown in the North West India. In addition, the leaf nutrient concentrations of nitrogen and calcium of this period were best correlated and leaf phosphorus (P) and potassium (K) were least correlated with fruit yield by linear correlation analysis.     

钙、 硼对常山胡柚叶片养分、 果实产量及品质的影响

【目的】研究叶片矿质营养元素含量的季节性变化,对探明植物体中营养元素的丰缺状况、 调控养分代谢、 提高果实产量和改善品质具有重要意义。本研究结合常山胡柚园土壤养分状况,通过连续4年施用钙肥和硼肥,研究钙、 硼对常山胡柚叶片矿质营养元素含量的季节变化、 果实产量及品质的影响。【方法】采用田间定位试验,以13年生枳砧常山胡柚为试验材料,设4个处理,1)CK(对照); 2)Ca(每株0.5 kg生石灰粉); 3)B(每株25 g 硼砂); 4)Ca+B(每株0.5 kg生石灰粉+ 25 g 硼砂)。于试验的第4年采集常山胡柚不同生长期当年生春梢叶片及成熟期果实样品,并对常山胡柚叶片矿质营养元素含量的季节变化、 果实品质进行分析。【结果】常山胡柚叶片各矿质养分在果实逐渐成熟过程中总体呈现先增后降的变化规律,其中叶片氮(N)、 钾(K)、 镁(Mg)和锌(Zn)在果实坐果期达到最大值,磷(P)在果实膨大前中期(8月份)到达最大值,钙(Ca)、 硼(B)、 铁(Fe)、 锰(Mn)和铜(Cu)在果实膨大后期(9月份)出现最高值。钙、 硼肥施用均可提高常山胡柚果实各发育时期叶片Ca、 B、 N、 K、 Fe、 Mn和Cu含量,但明显抑制叶片Zn的吸收,其中钙、 硼配施对成熟叶片(8~9月份)Ca含量存在显著正交互效应,但对提高叶片B含量无显著交互作用。施钙、 硼肥可不同程度提高常山胡柚2年平均产量,增产率达到1.8%~21.4%,其中各处理增产率顺序为Ca+B＞B≥Ca,且单施硼可显著提高2年累积产量,钙硼配施对单年产量、 2年平均产量均存在显著正交互效应。钙、 硼肥单施对果实品质无显著性影响,但钙硼配施可显著降低可滴定酸含量,显著提高固酸比。【结论】常山胡柚坐果期(4月份)为叶片N、 P、 K、 Mg和Zn吸收的关键时期,果实膨大期(8~9月份)为叶片Ca、 B、 Fe、 Mn和Cu吸收的重要时期。钙、 硼配施既可明显提高常山胡柚叶片中矿质营养元素含量(P和Zn除外),又能显著提高果实产量和品质。     

Establishing indicator leaf and its threshold values for need based nitrogen management using chlorophyll meter and leaf color chart in Bt cotton

Over application of fertilizer N to cotton is not only a potential threat to environment but also leads to increased costs of cultivation. The study aimed to establish the indicator leaf and its critical greenness for in-season management of fertilizer nitrogen (N) in Bt cotton using chlorophyll (SPAD) meter and leaf color chart (LCC). The response of three varieties and N treatments viz. 0, 30, 60, 90,120, 150 and 180?kg N ha^?1 applied in two splits {(50% at thinning and 50% at first flowering) and three splits (50% at thinning, 25% at first flowering and 25% at boll formation)} was studied through split plot design. SPAD values and LCC scores of first, second, third and fourth fully opened leaves from the top of the main stem was recorded at first flowering and boll formation. The physiological efficiency and harvest index was highest for 90?Kg N ha^?1 applied in two splits. Beyond 120?kg N ha^?1, the N use efficiency parameters were higher for the N treatments applied in three split compared to the respective two split N treatments. The fourth leaf from the top in terms of SPAD values and LCC scores correlated best with N concentration compared to other leaves at all growth stages. The calculated critical SPAD values for the fourth leaf were 45 and 41 at first flowering and boll formation, respectively. Critical score of fourth leaf was 4.1 and 4, respectively at first flowering and boll formation, respectively. It is suggested that color of the fourth leaf from the top of Bt cotton can well indicate N supply from the soil and can help in need based N management.     

Influence of different calcium materials and spray timing on mineral composition,yield, fruit quality,and control of fruit disorders of ‘anjou’ pears

During a six‐year period (1980, 1985–1989), 20 different calcium (Ca) materials were sprayed at an early (3X; June to July), late (3X; July to August), and an early plus late (5X; June to August) timing on 25‐year‐old ‘Anjou’ pear (Pyrus communis L.) trees. Calcium chloride (CaCl₂) sprays increased fruit Ca in the cortex by an average of 10.5% greater than in unsprayed controls and cork spot was reduced by an average of six‐fold. Yield from trees sprayed with Ca materials averaged greater than 13% more crop load than the unsprayed control trees. Leaf and fruit injury from CaCl₂ sprays in 1980 were near borderline acceptability, but injury was reduced slightly by halving the spray concentration rate to 681 g CaCl₂ per 379 liters of water in 1985 to 1989. Due to temperatures above 26°C, leaf and fruit injury from Ca sprays, particularly calcium nitrate [Ca(NO₃)₂], were more severe for the late or early plus late sprays than for the early sprays. Fruit size was slightly larger on trees sprayed only three times (early or late sprays) versus trees sprayed five times during the season (early plus late sprays). Best control of cork spot occurred with early plus late sprays. Best control of alfalfa greening and black end occurred with late or early plus late sprays. The importance of fruit Ca for controlling cork spot is illustrated when triiodobenzoic acid (TIBA) was sprayed on trees which resulted in reduced fruit Ca and increased incidence of fruit disorders, alfalfa greening, black end, and cork spot. Sprays containing nitrates or sulfates were frequently associated with a higher incidence of fruit disorders. Although fruit quality was not significantly influenced by Ca treatments or spray time, it was related to Ca in fruit peel or cortex due to annual variations in Ca concentrations.