CO2浓度升高与增施钾肥对黄瓜生长的影响

采用土培和开顶箱法,研究了大气CO_2浓度升高与K肥共同作用对黄瓜生长的影响.结果表明,CO_2浓度升高和K肥浓度增大均能增加黄瓜干物质的积累,且在高CO_2浓度下.200mg/kg和300 mg/kg K肥处理时黄瓜的干物重达到最大值.大气CO_2浓度升高使得黄瓜体内的N、P、K、Na、Ca、Mg含量均降低,K肥处理对黄瓜植株内N、P、Ca、Mg含量的影响不大,但K的含量随K肥的增加而增加.在高浓度CO_2下,200mg/kg和300mg/kg K肥处理时黄瓜对N、P、K、Ca、Mg的吸收量达到最大值.可见,在未来CO_2浓度升高的环境中,更多的K肥供应能促进作物对N、P、K、Ca、Mg的吸收,使其快速高效的生长.     

漳州低产香蕉园养分状况与平衡施肥研究

51个低产香蕉园土样测试结果表明,漳州低产香蕉园土壤酸性较强,有机质、全N、碱解N、缓效K、速效K含量偏低,有效P、Zn、S含量较丰富,有效Ca、Mg、B含量较缺。51个叶片样品养分含量N、P、K元素平均值大部分都在适宜范围,Zn含量丰富,Ca、Mg、S、B含量多属低量水平。2年田间定位试验表明,N、K效应差异显著,提高N、K施用量对低产香蕉园香蕉产量影响明显,调节土壤酸度,补充Ca、Mg营养也是重要的增产措施。     

紫花苜蓿、沙打旺对施入营养元素效应的初步研究

本文研究了黄土丘陵区紫花苜蓿与沙打旺在施入大量和微量营养元素后的生物量效应,以及植株中的化学元素的浓度和摄入量。结果表明:凡含有P素的试验处理,两种牧草地上部生物量均有显着增加,对紫花苜蓿根系增加的作用尤其突出。沙打旺施Mo地上部与根系生物量明显增加;各处理紫花苜蓿地上部K、Fe、Mo的浓度均高于沙打旺,而Ca、Mg、Mn、B的浓度几乎都低于沙打旺。含P处理紫花苜蓿的P浓度高于无P处理,同时伴随Zn浓度的降低。两种牧草由于施P虽然导致Zn浓度的降低,但Zn的摄入量却高于无P处理;施Mo处理地上部N、P、K、Cu、Fe、B、Mo的浓度。紫花苜蓿大于沙打旺,而摄入量则有相反趋势。     

脐橙幼苗新老叶片养分含量对大、中量元素短期缺乏的差异性响应

  【目的】  对比大、中量养分短期缺乏下脐橙新、老叶片中11种必需元素含量及变化,并分析缺素导致的营养元素间的相互影响。  【方法】  以一年生枳砧纽荷尔脐橙幼苗为试材进行了砂培试验。以完全营养液为对照 (CK),设置缺氮 (?N)、缺磷 (?P)、缺钾 (?K)、缺钙 (?Ca)和缺镁 (?Mg)处理,测定不同处理脐橙叶片（老叶和新叶）生长指标及矿质元素含量。  【结果】  所有缺素处理均导致叶片叶绿素含量降低,生物量减少,以缺氮处理最为显著。缺氮降低了叶片N、Ca、Cu、Mo含量;缺磷降低了叶片P、K、Mo含量;缺钾降低了叶片K含量;缺钙降低了叶片N、Cu、Zn、Mo含量但增加了P含量;缺镁降低了叶片Ca、Mg、Zn、Mo含量但增加了K含量。以必需矿质元素为变量分别对各处理老叶和新叶进行主成分分析,老叶中第一主成分 (PC1)明显将缺钾处理与其他处理区分开,与对照相比,缺钾老叶离子组成变化为N (?3%)、P (+1%)、K (?71%)、Ca (+11%)、Mg (+39%)、B (+16%)、Mn (+11%)、Fe (+32%)、Cu (?7%)、Zn (+14%)、Mo (?63%);新叶中PC1明显将缺氮处理与其他处理区分开,缺氮新叶离子组成变化为N (?53%)、P (+8%)、K (+7%)、Ca (?14%)、Mg (+11%)、B (+55%)、Mn (+51%)、Fe (?14%)、Cu (?57%)、Zn (+4%)、Mo (?25%)。老叶和新叶中元素含量呈正相关的元素是N-Cu、N-Ca、Mg-Mn和Cu-Mo,呈负相关的是K-Zn。  【结论】  脐橙幼苗老叶对钾的短期缺乏反应最敏感,缺钾会显著降低老叶中K和Mo含量并增加Mg和Fe含量,而新叶对氮素的短期缺乏最敏感,缺氮显著降低新叶中N、Ca、Cu和Mo含量。短期缺少P、Ca和Mg对脐橙幼苗叶片中的养分含量影响较小。     

沙培条件下磷、 钾、 钙亏缺对枳（Poncirus trifoliata）幼苗根系形态及营养吸收的影响

【目的】根系是吸收水分和养分的主要器官,对于多年生木本果树的生长发育尤为重要。由于果树根系庞大、 分布错综复杂,对根系构型和空间分布等的研究相对较少。本文利用计算机扫描系统及其图像分析软件观测根系二维形态参数,并用原子吸收法测定植株养分含量,以探索养分亏缺对枳根系形态的影响,以及根系形态变化与植株养分吸收的关系。【方法】本试验在沙培条件下,以柑橘砧木枳(Poncirus trifoliata)实生苗为试材,研究了缺磷、 钾和钙对其根系形态以及植株体内营养元素含量的影响。利用爱普生数码扫描仪（Expression 10000XL 1.0, Epson Inc. Japan）扫描根系,并用WinRhizo Pro (S) v. 2004b软件(Regent Instruments Inc., Canada)分析获取根系总长、 总体积和总表面积等二维形态参数。利用原子吸收光谱仪(SPECTR AA220)测定样品K、 Ca、 Mg、 Fe、 Cu、 Zn等元素含量。【结果】从扫描数据可知,3 种缺素处理对枳幼苗根系形态结构有较大的影响,即在缺素时根系总长、 表面积和体积均显著降低,缺P处理使枳实生苗粗根的根系长度、 表面积、 体积显著降低,但是增加了中等粗根的表面积和体积; 缺K和缺Ca处理的中等粗根根系长度、 表面积和体积均显著低于对照; 3种缺素处理均显著降低了细根和粗根的根系长度、 表面积和体积。不同缺素处理对植株根系和地上部生长的影响也存在差异,缺P对地上部的抑制作用显著强于根系,缺K处理对根系生长的抑制作用较强,缺Ca对根系和地上部生长的抑制作用均较小。缺Ca处理植株体内Zn和Fe浓度均显著增加但Ca浓度降低,缺P时植株体内Ca和地上部Zn浓度增加,而缺K时植株体内Ca、 Zn浓度增加但Fe和K浓度均显著降低。【结论】不同缺素条件下枳实生苗根系形态各异,导致根系对不同养分的吸收能力不同,从而使植株体内K、 Ca、 Zn、 Fe等养分含量发生改变,最终影响整个植株根系和地上部的生长,表现出各缺素环境所特有的树体特征。     

Pb胁迫对藿香蓟（Ageratum conyzoides）营养积累与分配的影响

为了解Pb胁迫对地被植物藿香蓟（Ageratum conyzoides）生长特性的影响,采用盆栽控制试验,研究了不同Pb浓度（0、250、500、750、1000、1250、1500mg·kg-1）胁迫处理下霍香蓟植株生物生产量、生物量分配格局及N、P、K、Mg积累和分配特征。结果表明,低浓度Pb胁迫处理明显增加了藿香蓟的生物量、根茎叶中N、P、K、Mg含量及养分积累,改变了养分在植物体内的分配格局,但高浓度Pb胁迫处理明显抑制了植物生长,降低了根茎叶中P、K的含量和积累量。这说明藿香蓟能在一定程度上适应Pb污染土壤环境,可用于轻度Pb污染区域的园林绿化。     

镁、钾相互作用对水稻生长、养分吸收及有关生理特性的影响

在温室条件下,采用液体培养方法研究了Mg、K相互作用对水稻生长、养分吸收以及有关生理特性的影响。结果表明,在低Mg浓度条件下,水稻植株干物质积累随K浓度增加而减少;在高Mg条件下水稻植株干物质积累随K浓度增加而相应增加。在低Mg条件下,高浓度K显著抑制植株对Mg、K、N和P的吸收;在高Mg浓度下,植株对Mg、K、N和P的吸收有促进作用。植株叶片叶绿素含量在低Mg条件下随K浓度增加而减少,在高Mg条件下K浓度增加对叶绿素含量无显著影响。叶片硝酸还原酶活性和可溶性蛋白质含量随Mg浓度增加而增加,而K浓度增加对叶片硝酸还原酶活性和可溶性蛋白质含量无明显影响。高Mg条件下的叶片可溶性糖和淀粉含量明显高于低Mg处理,并随K浓度增加而提高。Mg、K营养拈抗作用主要表现在低Mg高K浓度条件下抑制Mg的吸收。     

香蕉营养诊断的DRIS标准的初步研究

运用诊断与推荐综合系统(DRIS)标准建立的常规方法,通过比较香蕉低产组和高产组叶片N、P、K、Ca、Mg和S养分含量以及两元素间的养分比和养分积,初步筛选出P/N、N.K、N.Ca、N/Mg、N/S、P.K、P/Ca、P/Mg、P.S、Ca/K、K/Mg、K.S、Ca/Mg、Ca/S和S/Mg作为DRIS参项,并初步提出香蕉DRIS诊断标准。     

氮磷钾肥料对天鹰椒养分吸收量及干物质产量的影响

天鹰椒施用氮肥 ,增加了干物质中N ,Mg的百分含量 ,但减少了P和K的百分含量 ;施N情况下 ,N ,P ,Ca,Mg的吸收总量增加。施用磷肥 ,增加了干物质中P的百分含量 ,减少了Ca ,Mg的百分含量 ;N ,P ,K ,Ca的吸收总量增加 ,Mg的吸收总量减少。施用钾肥 ,增加了干物质中K的百分含量 ,减少了Ca ,Mg的百分含量 ,K ,P的吸收总量增加 ,N ,Ca ,Mg的吸收总量减少     

氮磷钾肥料对天鹰椒养分吸收量及干物质产量的影响

天鹰椒施用氮肥，增加了干物质中N，Mg的百分含量，但减少了P和K的百分含量；施N情况下，N，P，Ca,Mg的吸收总量增加。施用磷肥，增加了干物质中P的百分含量，减少了Ca，Mg的百分含量；N，P，K，Ca的吸收总量增加，Mg的吸收总量减少。施用钾肥，增加了干物质中K的百分含量，减少了Ca,Mg的百分含量，K，P的吸收总量增加，N，Ca,Mg的吸收总量减少。     

巨桉人工林叶片养分交互效应

在四川巨桉栽培区设立了60个标准地,采用相关分析和矢量诊断法进行分析,以了解巨桉人工林养分的相互作用关系。结果表明,巨桉人工林叶片的养分交互作用较为复杂。N可促进P、K、Ca、Mn等的吸收,但易受到Fe、Zn、高Ca、高Mg的拮抗,而且高N抑制了Mn的吸收;P可促进K、Mg、Mn等的吸收,但易受Zn、Fe、高Mn、高K、高Ca、高Mg的拮抗,而高浓度的P将抑制K、Zn、Fe等的吸收;K对其他养分元素均没有明显的促进作用,但高浓度K限制P的吸收;Ca、Mg之间可相互促进吸收。同时,低浓度的Ca和Mg有利于Fe、Zn的吸收,高浓度的Ca和Mg将对N、P、Fe、Mn、S、B等养分产生拮抗,限制吸收;S可促进Zn的吸收,但易受高Ca、高Mg拮抗;Cu、Zn、Fe、Mn之间主要以拮抗为主。B相互作用较少,对其他养分几乎没有明显的促进作用。     

Induced nutrient deficiencies in Catharanthus roseus impact ajmalicine bioproduction

Plants are key sources to obtain drugs and related medical compounds. In the species Catharanthus roseus L.G. Don, ordinarily known as vinca, contains significant amounts of the alkaloid ajmalicine, which is used as an anti-hypertension drug. The aim of this research was to verify the effect of macro-nutrient deficiencies and boron over ajmalicine bioproduction in vinca roots. The experiment was performed in random blocks with eight treatments: complete, nitrogen deficient (-N), phosphorus deficient (-P), potassium deficient (-K), calcium deficient (-Ca), magnesium deficient (- Mg), sulfur deficient (-S) and boron deficient (-B), with four replicates. Seedlings were initially watered once a day with a complete solution and after 55 days after germination the treatments were started. Plants were collected 135 days after germination and evaluated in relation to root's dry matter, concentration of N, P, K, Ca, Mg, S, B and ajmalicine. Concentration of N, P, K, Ca, Mg, S and B within the root's dry matter of the vinca plants in deficient treatments were respectively of 62, 61, 93, 52, 70, 61 and 44% lower when compared with complete treatment. Potassium deficiency resulted in ajmalicine increment of 19% within roots, while deficiencies in N, P, Mg and S reduced ajmalicine concentration in 55, 33, 22 and 26% respectively when compared with complete treatment. Deficiencies in Ca and B had no significant effect in ajmalicine concentration within the plant roots. Within plants with the complete treatment, nutrient contents of ajmalicine from the roots’ dry matter were respectively of 18,5 g kg^?1 N, 1,46 g kg^?1 P, 13,5 g kg^?1 K, 4,47 g kg^?1 Ca, 1,43 g kg^?1 Mg, 1,53 g kg^?1 S, 61 mg kg^?1 B and 1,28 mg g^?1 of vitexin.     

Broiler Litter as a Sole Nutrient Source for Cotton: Nitrogen,Phosphorus, Potassium,Calcium, and Magnesium Concentrations in Plant Parts

Abstract

The ability of poultry litter to support plant growth by supplying essential plant nutrients in the absence of other sources of the nutrients has not been studied thoroughly. The objectives of this research were to (1) determine the ability of poultry litter, as the sole nutrient source, to provide macronutrients and support growth of cotton (Gossypium hirsutum L.) (2) evaluate the distribution of these nutrients within the different plant parts, and (3) estimate the efficiency with which these nutrients are extracted by cotton. The research was conducted in plastic containers filled with a 2:1 (v/v) sand:vermiculite growing mix under greenhouse conditions. The treatments included broiler litter rates of 0, 30, 60, 90, or 120 g pot^?1 with or without supplemental Hoagland's nutrient solution. Broiler litter supplied adequate amounts of the macronutrients nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), and magnesium (Mg) and supported normal growth of cotton. Tissue nutrient analysis showed that the concentration of N, P, K, and Mg in the upper mainstem leaves was within published sufficiency ranges for cotton growth. Evaluation of the N distribution indicated that the cotton plant partitions N to reproductive parts when faced with deficiency of this nutrient and favors allocating N to new leaf growth once the requirement for reproductive growth is met. The partitioning of P was similar to that of N but less distinct. Cotton extracted Mg and K with greater efficiency (up to 58%) than the other nutrients and stored these nutrients in older leaves. The extraction efficiency of N ranged between 21% at 120 g pot^?1 litter and 27% at 30 g pot^?1 litter. Phosphorus was the most poorly extracted nutrient, with only 16% of the total applied P extracted when 30 g pot^?1 litter was applied and only 6% extracted at the higher litter rates. This suggests that the same problem of P buildup that has been reported in soils under pasture may also occur when poultry litter is repeatedly applied to the same soil planted to cotton. These results show that broiler litter not only supplied enough N but also supplied the four other macronutrients (P, K, Ca, and Mg) in amounts sufficient to support normal cotton growth. This research implies that poultry litter can effectively substitute for several fertilizers to meet crop macronutrient (N, P, K, Ca, and Mg) needs in soils deficient in any or all of these nutrients.     

Foliar Symptomology and Tissue Concentrations of Nutrient‐Deficient Vegetative Strawflower Plants

Abstract

Elemental deficiencies of nitrogen, phosphorus, potassium, calcium, magnesium, sulfur, iron, manganese, copper, zinc, or boron (N, P, K, Ca, Mg, S, Fe, Mn, Cu, Zn, or B) were induced in plants of Florabella Pink strawflower [Bracteantha bracteata (Vent.) A. A. Anderberg]. Rooted stem cuttings were planted in 4.87‐L plastic containers and fertilized with a complete modified Hoagland's solution or this solution minus the element that was to be investigated. Plants were harvested for tissue analyses as well as dry weights when initial foliar symptoms were expressed and later under advanced deficiency symptoms. Deficiency symptoms for all treatments were observed within 7 weeks. The most dramatic expression of foliar symptoms occurred with N (chlorotic lower foliage leading to necrotic margins on the mature leaves), Ca (black necrotic spots on the tips of the young leaves), S (uniform chlorosis of young leaves and recently mature leaves), B (thick, leathery, and deformed young leaves), Fe (uniform yellowish‐green chlorosis on the young leaves), and Zn (brownish‐gray necrosis on the tips of the mature leaves). At the initial stage, only Fe‐deficient plants weighed less than the control, whereas K‐, Ca‐, and Mg‐deficient plants had greater dry weights than plants receiving the complete modified Hoagland's solution (control plants). Dry weights of plants treated with solutions not containing N, P, Ca, S, Cu, or Mn were significantly lower when compared with the control plants under an advanced deficiency. Foliar‐tissue concentration data will assist plant‐tissue analysis laboratories in establishing foliar symptom standards for growers.     

缺素培养对大豆营养生长和根系形态的影响

通过营养液栽培试验,探讨了巴西10号和本地2号两个大豆基因型在氮、磷、钾、钙、镁、硫、铁缺乏条件下的缺素症状和植株生物量变化,以及根系形态指标的改变。结果表明,缺素处理对大豆植株生长影响显著,在各种缺素条件下大豆植株生物量均明显降低,地上部与根部均表现出各种营养元素缺乏时的特有症状;缺氮、缺钾、缺钙、缺镁和缺铁处理时大豆总根长和根表面积也均显著降低。大豆对不同缺素处理的反应存在基因型差异。     

Capsicum annuum var. annuum under macronutrients and boron deficiencies: Leaf content and visual symptoms

This study aims to describe macronutrient and boron deficiencies in pepper grown in a hydroponic system in the presence of a substrate during the vegetative and fruiting phases. The experiments were carried out into a greenhouse, and consisted of a randomized block design with eight treatments: complete solution (control) and nitrogen (-N), phosphorus (-P), potassium (-K), calcium (-Ca), magnesium (-Mg), sulfur (-S) and boron (-B) deficient solutions, with four repetitions for each assay. Visual diagnoses of certain macronutrient and boron deficiencies can be applied by farmers to aid in soil management, since they are observed in leaves, while N, P, Ca, S and B deficiencies led to roots symptoms. Pepper fruits showed nutritional deficiency symptoms when grown under N, K, Ca, Mg, S and B deficits. The appearance of nutrient deficiency symptoms in pepper plants occurs in the following order: N, K, P, Mg, S, Ca and B.     

Mineral Deficiency in Passiflora alata Curtis: Vitexin Bioproduction

ABSTRACT

A greenhouse experiment was performed to evaluate macronutrients and boron deficiencies on vitexin bioproduction by sweet passion fruit leaves. Sand irrigated with nutrient solution was used as substrate in a complete randomized design, with eight treatments: 1) complete, 2) nitrogen-deficient(-N), 3) phosphorus-deficient(-P), 4) potassium-deficient(-K), 5) calcium-deficient(-Ca), 6) magnesium-deficient(-Mg), 7) sulfur-deficient(-S), and 8) boron-deficient(-B). After thirty days, the fourth fully expanded leaves were harvested. Under deficiency treatments, leaf dry matter concentrations of N, P, K, Ca, Mg, S, and B were 52, 53, 62, 76, 69, 31, and 80% lower than in complete treatment, respectively. Nitrogen, P, and K deficiency increased vitexin leaf concentration by 46, 16, and 18%, although Ca and B deficiencies decreased vitexin concentration by 22 and 33%, respectively, when compared to complete treatment. Magnesium and S deficiencies had no significant effect on vitexin concentration. In complete treatment, the concentration of nutrients and vitexin, in leaf dry matter were: 43.4 g kg^{? 1} of N, 2.47 g kg^{? 1} of P, 27.4 g kg^{? 1} of K, 15.6 g kg^{? 1} of Ca, 3.8 g kg^{? 1} of Mg, 5.28 g kg^{? 1} of S, 64 mg kg^{? 1} of B, and 5.57 mg kg^{? 1} of vitexin.     

Deficiency of N,P, K,Ca, Mg,or Fe Mineral Nutrients in Narcissus cv. “Garden Giant”

Narcissus cv. “Garden Giant” bulbs were grown in N, P, K, Ca, Mg, or Fe-deficient solutions and compared with bulbs grown in the control solution containing all these nutrients. Plants were sampled at 4 stages: (I) at planting, (II) at sprouting, (III) after flower senescence and/or after visible deficiency symptoms developed, and (IV) at lifting. Observation of visible deficiency symptoms showed that leaves of narcissus displayed chlorosis in the —N, —Mg, and —Fe treatments, while roots were most susceptible to Ca-deficient conditions. Root tips in the —Ca treatment showed brown in followed by root rot. In the —N treatment, shoot growth was markedly retarded and leaves were small and yellow. On the other hand, visible deficiency symptoms were not evident in the —P treatment except for early senescence. K deficiency symptoms were also not evident. Narcissus flowers were not affected by the mineral deficiencies and mineral contents in full-bloom flowers were not different between samples.

In the control plants, there was a large accumulation of N in the roots at sprouting and the content decreased thereafter. Large amounts of K accumulated in roots more than in any other organs. On the other hand the Ca content was high in the tunic and Ca in the scales was hardly mobilized thoughout the growth period. A large proportion of each element eventually accumulated in new inner scales whereas only a small fraction in the old outer scales. The -N, -Ca, and -Mg treatments severely depressed dry matter accumulation, unlike the -P, -K, and -Fe treatments. The -N treatment did not affect the concentration of other minerals, but the -P treatment tended to decrease N, K, Ca, and Mg concentrations. On the other hand, the -K treatment increased Ca and Mg concentrations. -Ca caused an increase in Mg concentration and -Mg raised Ca concentration. These results may be due to compensation effects of cation absorption for the maintenance of the cation/anion balance.     

Sulfur composition of soybeans as affected by macronutrient deficiencies

Abstract

Results of solution culture experiments on effects of N, P, and K deficiencies on S constituents of leaf blades, total S concentrations, and S uptake by soybean plants are reported. Nitrogen deficiency decreased the concentration of soluble protein S, had little effect on nonsoluble S, and increased concentrations of soluble nonprotein S, sulfate S, reduced non‐protein S, and total S of soybean leaf blades. Soluble protein and S content of soluble protein decreased under N‐deficient conditions. For whole plants, S concentration and S uptake increased while dry weight was unaffected by N deficiency.

Phosphorus deficiency did not significantly affect S constituents of soybean leaf blades or whole plants. However, S concentrations and S uptake tended to decrease when P was deficient.

Potassium deficiency increased nonsoluble S concentrations in leaf blades and total S concentrations in whole plants but lowered dry weight per plant. Other S fractions of the leaf blades and S uptake per plant were not significantly affected.     

Calcium nutrition of white rose potato in relation to growth and leaf minerals

Abstract

White Rose potato plants were grown in nutrient solutions containing Ca from 0 to 20 meq/l. After 32 days of growth, 16 plant parts were taken for analysis. The critical level for the immature to the recently matured leaf was determined to be about 0.15% Ca for the petiole and the blade tissues at the breaking point of the transition zone. Ca concentrations of petioles and blades (dry basis) increased with leaf age with the greatest increase in the blade tissues. The petioles of recently matured leaves under severe Ca deficiency were higher in Na, Mg, and PO₄‐P, lower in N0₃‐N and about the same in K concentration in comparison with non‐deficient petioles while the corresponding blades did not differ appreciably. Calcium deficiency has no major effect on the uptake of these minerals since all values were in the adequate range.