Effects of N and K on growth,herbage, oil yield and nutrient uptake patterns in rosemary (Rosmarinus officinalis L.) under semi-arid tropical conditions

Summary

Essential oil of rosemary (Rosmarinus officinalis L.) possesses good olfactory properties and is suitable for use in perfumes, soaps and fragrances. Field experiments were conducted over 2 years (2003-2005) in an area experiencing a semi-arid tropical climate, to study the influence of two N levels (150 or 300 kg N ha^–1 year^–1) and three K levels (41.5, 83.0 or 124.5 kg K ha^–1 year^–1), or no fertiliser, on the growth, herbage and oil yields and nutrient uptake patterns of rosemary. The results showed that application of 300 kg N ha^–1 year^–1 produced higher herbage and oil yields in rosemary, compared with 150 or 0 kg N ha^–1 year^–1. The application of 83.0 kg K ha^–1 year^–1 produced maximum herbage and oil yields, compared with 0 or 41.5 kg K ha^–1 year^–1. Total N and K uptake levels were increased significantly by the application of N and K. Nitrogen uptake increased by 85.2% and 137.7%, and K by 80.9% and 123.9%, respectively, with the application of 150 or 300 kg N ha^–1 compared to controls (no N). Similarly, N uptake increased by 96.1%, 130.2% and 113.6%, and K by 79%, 124.3% and 110.4%, respectively, with the application of 41.5, 83.0, or 124.5 kg K ha^–1 compared to controls (no K). Oil content and oil composition were not influenced by nitrogen or potassium levels.     

Effect of long-term balanced and imbalanced inorganic fertilizer and FYM application on chemical fraction of DTPA-extractable micronutrients and yields under rice–wheat cropping system in mollisols

The imbalanced use of chemical fertilizers under intensive cultivation practices over a period of years leads to various soil-associated problems particularly nutrient availability. Thus, to examine the effect of long-term application of balanced and imbalanced inorganic fertilizer and farm yard manure (FYM) application on the chemical fraction of DTPA-extractable micronutrients under rice–wheat cropping system after 29 years, the observations were recorded from the ongoing field experiment at Govind Ballabh Pant University of Agriculture and Technology, Pantnagar, India. An application of balanced inorganic fertilizer with FYM in rice, while without FYM in wheat significantly improved the DTPA-extractable Zn, Fe, Mn and Cu after rice and wheat crops in both the surface and sub-surface soil layers. Lowest DTPA-extractable Zn, Fe, Mn and Cu were recorded, in surface and sub-surface soil under rice and wheat crops in control. The highest DTPA-extractable Zn, in both surface and sub-surface layers of rice (3.31, 1.62 mg kg⁻¹, respectively) and wheat (2.96, 0.99 mg kg⁻¹, respectively) was recorded because of application of N₁₈₀+P₈₀+K₄₀+Zn(F) + FYM in rice and N₁₈₀+P₈₀+K₄₀+Zn(F) in wheat. However, the DTPA-extractable Fe, Mn and Cu were highest in rice and wheat because of N₁₂₀+P₄₀+K₄₀+FYM and N₁₂₀+P₄₀+K₄₀ application, respectively. The balanced use of inorganic fertilizer with FYM (N₁₈₀+P₈₀+K₄₀+Zn(F) + FYM) in rice and without FYM [N₁₈₀+P₈₀+K₄₀+Zn(F)] in wheat supported the highest rice (6.74 t ha⁻¹) and wheat (3.50 t ha⁻¹) grain yields, while lowest in control. Based on the study results, long-term application of FYM at 5 tonnes ha⁻¹ in rice crop sustained the availability of DTPA-extractable cationic micronutrients to rice and wheat in Mollisols.     

Evaluation of mulberry germplasm for resistance to powdery mildew in the field and greenhouse

Powdery mildew caused by the ascomycete Phyllactinia guttata (syn. P. corylea) is a major foliar disease worldwide of the unique mulberry (Morus spp.) for silkworm feed. Genetic resistance to powdery mildew, the most sustainable and economical strategy for disease control, is still elusive for tropical mulberry. About 147 germplasm sources, representing 18 countries of origin, were screened for resistance to P. guttata in six seasonal fields and greenhouse trials after exposure to natural and artificial inoculum, respectively. In the field, the level of plant responsiveness to disease was assessed from 30 to 62 days after pruning in each season as variations in the disease severity index (DSI), disease incidence (DI%) and area under the disease progress curve (AUDPC). These measures differed significantly among the germplasm. Of 147 germplasm sources, ~6.8% had useful resistance (two high and nine moderately resistant) to the powdery mildew pathogen on the basis of DSI. The AUDPC values were 13.5-fold higher in the most susceptible accession—(Philippines) than the least responsive (Vietnam-2). The results of DSI were strongly correlated with the obtained DI values (r = 0.92; P < 0.01) and AUDPC (r = 0.89; P < 0.01). Moreover, field screening results were highly correlated (R ² = 0.839) with values from the greenhouse evaluation using artificial inoculum. However, the DSI values in field and greenhouse screenings for three sources (Non-nayapati, Nao-khurkul and Tista Valley) varied significantly. A relatively low disease reaction of 09 resources (Vietnam-2, Ankara and 07 others) using different assessment scales after natural and artificial inoculation prove, for the first time, that they have potential in breeding for resistance in tropical mulberry to powdery mildew.     

Control of sheath blight disease in rice by thermostable secondary metabolites of <Emphasis Type="Italic">Trichothecium roseum</Emphasis> MML003

The aim of the study is to investigate the biocontrol mechanisms of Trichothecium roseum MML003 against the rice sheath blight (ShB) pathogen, Rhizoctonia solani as the former exhibited strong antagonistic activity against the latter. It has been found that T. roseum MML003 did not show any hyperparasitic interaction against R. solani. Further, it did not produce siderophores and hydrogen cyanide. However, the culture filtrate of T. roseum MML003 strongly inhibited the mycelial growth and sclerotial formation, its germination and viability, which proved that the biocontrol activity is antibiosis-mediated. The extracellular crude antifungal metabolites of T. roseum MML003 were thermo and photo-stable. Potted plant experiment showed that the crude metabolites of T. roseum MML003 effectively reduced the ShB disease in rice up to 47.7%. Thus, this study assumes significance as it provided further scope for the identification of antifungal metabolites from T. roseum MML003 and their possible use against sheath blight disease of rice.     

Root textural quality in ashwagandha (Withania somnifera) as influenced by crop growth periods and morphotypes

Ashwagandha (Withania somnifera) is a commercially important medicinal crop and roots are the main portion of the plant used therapeutically. The root textural quality determined by high starch-fiber ratio fetches premium price for the produce. Influence of morphological variants and crop growth intervals on accumulation of starch and crude fiber in roots was studied to assess morphotypical differences and to determine the right harvest stage for high root yield with better physical quality. The morphotypes showed similar trend for dry root yield, whereas differences were observed for starch and crude fiber accumulation. The pattern of starch and fiber accumulation varied with different crop growth periods. In general, crude fiber content increased with the crop duration, whereas starch content and starch-fiber ratio followed a trend of decrease-increase-decrease as influenced by different phenophases. Discussions on suitable harvest stage based on dry root yield and starch-fiber ratio are made.     

Genetic diversity of Ralstonia solanacearum infecting solanaceous vegetables from India reveals the existence of unknown or newer sequevars of Phylotype I strains

Bacterial wilt is one of the important constraints in the cultivation of solanaceous vegetables in India. The disease is caused by Ralstonia solanacearum, a soil bacterium. We have collected 232 isolates of R. solanacearum infecting solanaceous vegetables (eggplant, tomato and chilli) and other crops from different parts of India. Pathogenicity of the isolates was tested on eggplant, tomato and chilli and the pathogen was confirmed by PCR. Multiplex PCR and biochemical tests indicated that all the isolates were phylotype I and biovar 3. Ninety-five representative isolates selected based on geographical region, host range and pathogenicity were subjected to further phylogenetic and diversity analysis. Sequence analysis of egl, pga and hrpB genes of 95 isolates and genetic diversity of 50 representative isolates was reported and discussed. Indian isolates within the Phylotype I did not group based on the host or geographical location, except clustering of isolates from the Andaman Islands. Indian isolates clustered into two sub groups based on egl and pga trees indicating the presence of two major population groups. Sub group 1 is the dominant group in the data set and consists of unknown/newer sequevars, and sub group 2 consist of mainly the isolates which are designated with sequevar numbers based on egl sequences. In the hrpB based tree, the sub group 2 is the dominant group in the data set and it is the same for the sub group 1 of the egl tree. Indian phylotpe I R. solanacearum strains are phenotypically diverse including the previously described sequevars 14, 17, 44, 47 and 48. Our studies indicated the existence of R. solanacearum isolates with unknown/newer sequevars; the diversity existing among the phylotype I isolates might be due to a continuous evolutionary process. To our knowledge this is the first detailed report on the diversity of phylotype I R. solanacearum strains infecting solanaceous vegetables and the existence of unknown/newer sequevars in India.     

Ecophysiological attributes of Mikania micrantha,an exotic invasive weed,at two different elevations in the tropical forest regions of the Western Ghats,South India

Mikania micrantha H.B.K. is a fast‐growing, perennial vine and one of the world's worst alien invasive weeds. It is a major threat to agro‐ecosystems, plantation crops and agro‐forestry systems. An attempt was made to understand the physiological adaptation and ecological amplitude of M. micrantha at two different altitudes and seasons in the Western Ghats of south India. The relationships between the net photosynthetic rate (P_N) and other physiological parameters, like stomatal conductance (g_s), transpiration rate, intercellular CO₂ concentration, vapor pressure deficit and water use efficiency, and environmental factors, like photosynthetically active radiation (PAR), leaf temperature and air temperature, were analyzed in order to understand their physiological adaptabilities. The P_N exhibited a peak at 10.00 hours and declined gradually at both elevations; however, the populations at the lower elevation had a significantly greater P_N than the populations at the higher elevation in November. The P_N and g_s were positively correlated with the PAR. Under significantly different PAR levels, the difference in the average P_N was not significant for summer but was significant for winter between the two elevations. It suggested that the photosynthetic ability of M. micrantha is not affected by a difference in altitude (451 m and 912 m), as the differences in the environmental parameters were inconspicuous between the two elevations. These results indicated that this weed possesses great phenotypic plasticity and thrives better at lower elevations.     

Disease suppressive effects of resistance-inducing agents against red rot of sugarcane

Red rot caused by Colletotrichum falcatum is one of the most devastating fungal diseases of sugarcane in many tropical countries. In this study, the efficacy of various resistance-inducing agents was evaluated against red rot at two growth phases of sugarcane, i.e., the germination and grand growth phases, for four consecutive cropping seasons (2011–12 to 2014–15) under field conditions. Inducer candidates of both synthetic origin (benzothiadiazole [BTH], salicylic acid [SA], potassium silicate [PSi]) and biotic origin (Colletotrichum falcatum [Cf] elicitor and Reynoutria sachalinensis extract) were evaluated for their efficacy on a red rot susceptible sugarcane cultivar CoC 671. Inducer concentrations that showed significant reduction of red rot lesion length in leaf bioassays without exhibiting direct antifungal activity were used in the field trials. Overall, results of the four field trials indicated that application of BTH (125 μM) and Cf elicitor (60 μg glucose equivalent/ml) were most efficient in reducing disease incidence during the germination and establishment phases against soil-borne inoculum and suppressed disease severity in pathogen challenged cane stalks during the grand growth phase. In addition, other treatments also had significant effects on germination and stalk disease severity. Quantification of C. falcatum biomass in resistance inducer-treated canes by quantitative PCR (qPCR) substantiated the disease suppressive effect of BTH and Cf elicitor. Whereas all resistance inducers significantly increased the cane weight, only BTH and PSi significantly increased the juice quantity. Other juice quality parameters were generally not affected by the inducers.