Allelopathic substances of Parthenium weed and interactions of Solanum melongena

A study was conducted to explore the post observation indicated that Parthenium hysterophorus strongly react with Solanum melongena. Aqueous extracts of 20 and 40% (w/v) obtained from root extracts of Parthenium increased the total chlorophyll and carotenoids content over control. The toxicity of plant part extracts was also concentration dependent. The inflorescence caused more inhibition than root extract. It appears that allelopathy is the major components of interactions with competitors probably accentuating its effect. It was also found that allelopathy is an important component of the interactions. The inhibitory potential of the extracts was increased with concentration.

considered to be those compounds (such as alkaloids, phenolics, flavonoid, terpenoids, and glucosinolates) which do not play a role in primary metabolic processes essential for a plant's survival, and are produced as offshoots of primary metabolic pathways.In contrast to which comprises several hundreds of low molecular weight compounds, ten of thousands of secondary substances are known today, but only a limited number has been implicated as allelochemicals (Rice, 1979).Allelochemics are present in virtually all plant tissues, including leaves, flowers, fruits, stems, roots, rhizomes, seeds and pollen.They may be released from plants into the environment by means of four ecological processes: volatilization, leaching, root exudation, and decomposition of plant residues.As demand increases for sustainable agriculture and concern grows regarding the extensive use of synthetic chemicals (e.g.contamination of environment, herbicide resistance, increasing cost), attention is focused on reducing reliance upon synthetic herbicides and finding alternative strategies for weed management.Several workers have shown that allelopathy plays an important role in weed and weed interaction and weed crop interaction (Jabeen and Ahmed, 2009).
For present experiment Parthenium has been chose.P. hysterophorus L (Congress grass, Congress weed, Carrot weed, the "Scourge of India") is an exotic weed that was accidentally introduced in India in 1956, through imported food grains. (Lonkrar, et al., 1974).The plant is thermo and photo sensitive; hence it grows round the year.Chemical analysis has indicated that all plants parts contain toxins from the chemical group of sesquiterpene lactones (Oudhia and Tripathi, 1998).Narwal (1994) has isolated many allelochemicals such as parthenin, p-coumaric acid, caffeic acid coronopollin and sesquiterpene, lactones, from the aqueous extracts of Parthenium responsible for allelopathic effects on other plants.
A comprehensive survey of literature revealed that the allelopathic effect of Parthenium with lower concentrations enhanced the growth parameters of various crops (An, Pratley and Haig, 1998).Weeds are an important factor in the management of all lands and water resources but their effect is greatest on agriculture (Dave and Jain; Sharma, et al., 2009) So, Keeping in view the present studies have been conducted to use positive allelopathic potential of Parthenium on growth parameters of S. melongena L. (Brinjal/Eggplant, family Solanaceae) a short lived perennial plant often cultivated as an annual.

Study Site
A systematic survey of Ballia (25" N 45' latitude and 84" E 10' longitude, sea level 69.9 meter) and its surroundings areas was done to study the interaction of the target weed P. hysterophorus L with S. melongena L. The plants of P. hysterophorus were collected from the college campus.Two parts of the plant (root and flower) were used for the preparation of extracts.Parthenium parts were cut into the fine pieces (2mg/ml) and soadked in lukewarm water and left for 24hrs at room temperature.After that the material was sieved and stock solution of the extract was prepared.From this stock solution different concentrations (20,40,60, 80 and 100%) were prepared against control (00 %) in glass distilled water (DW) for the spray treatment at different stages of growth (Pre flowering, flowering and post flowering).

Cultural Practices
The fire clay posts (size, 30 cm diameter and 30 cm height) filled with equal weight (3 kg) of sandy loam soil in all the pots taken from agriculture field of college campus S M M Town PG College, Ballia.The soil has pH 6.8 and soil testing has suggested that soil contain 0.56% organic carbon, 18 kg/hectare phosphate and 210 kg/hectare potash.Five gram home garden fertilizer (loamy soil 40%, sand 20%, cow dung 20%, and leaf manure 20%) was thoroughly mixed in the soil at the time of filling of pots.
The experiment was set up in the month of March, 2008 (average temperature 34 -11 o C. The plant selected for the study is S melongena L., Neelam Long.For each treatment, triplicate pots were maintained and three plantlets were planted in each pot.The soil of each pot was thoroughly watered i.e. 1000 ml/pot.The treatment was given at 3 stages (Pre flowering, flowering and post flowering).The growth of S. melongena plants was recorded at 15, 35 and 65 DAP (Days after planting).Growth parameters taken were root and shoot length, fresh weight, dry weight, leaf area and biochemical parameters like chlorophyll (Arnon, 1949) and catrotenoids content (Jensen and Jensen, 1972).

Statistical Analysis
All the data collected on growth, productivity and biochemical attributes were subjected to statistical analysis of variance subjected to randomized block design as described by Panse and Sukhatme (1985).

RESULTS
From the observations it is clear that the extracts of different plants parts of Parthenium affected the Parameters of Solanum.As studied at three different stage of growth the pattern of affect is almost similar for one extract but different for other.Pre flowering, 15 DAP (Table -

DISCUSSION
The present investigations revealed that P. hysterophorus has strong allelopathic potential against S. melongena.Aqueous root extracts of the species employed in various concentrations caused significant enhancement in growth of the test crop species.Under the allelopathic stress, the growth of the allelopathic was severely depressed.Dosage effect was highly pronounced and directly proportional to the increasing concentrations of aqueous root, flower extracts.Root extracts of Parthenium invariably stimulate the growth parameters of test crops but the effect was more pronounced in higher concentrations.These results are in line with earlier finding (Kill and Yun, 1992).In pot experiments, root growth in terms of root length was markedly suppressed by flower extracts of Parthenium in the test species.Similar observations have also been demonstrated by Hsu et al., (1989) and Lawerence et al., (1991).Spray applications of allelopathic extract employed in higher concentrations probably affected the photo synthetic activity of leaves due to which the growth in terms of length and dry weight was markedly influenced.Furthermore, the allelochemicals are also known to reduce uptake of nutrients (Kolesnichenko and Aleikina, 1976), suppress the activity of growth hormones such as IAA and Gibberellins (Kefeli and Turetskaya, 1976) and disturb the process of photosynthesis (Barkosky et al., 1999), which may result in declined shoot growth.It has also been suggested that other basic plant processes such as respiration, chlorophyll synthesis, hormonal balance, protein synthesis, permeability and plant water relation may also altered by allelopathic compounds (Yamane et al., 1992).
The reduced root growth under allelopathic stress may also be attributed to reduced shoot growth with higher concentrations of plants parts of Parthenium.This indicates, the availability of the inhibitory chemicals in higher concentrations in flowers than in roots (Kanchan and Jaychandra, 1980).Among the treatments, 80 and 100% of flower extracts had the strongest inhibitory effect.The extracts of Parthenium induced a variety of chromosomal aberrational dividing cells, which increasing concentrations and duration of exposure (Rajendra, 2005).Serivastava et al., (1985) revealed that aqueous extracts of inflorescence inhibited the growth.
Chemicals were repor ted to have allelopathic potential on various agronomic crops and weds (Stephen and Sowerby, 1996; Mersie and Singh, 1987) and vegetables.Where as lower concentration of root extracts stimulate the growth parameters than flower extracts.p-Anisic, p-hydroxybenzoic and vanillic acid in the root.p-Anisic and Benzoic acids are present which are further used as solvents, additive and penetrating agents.Vanillic acid might be used as stimulating agent.Allelochemical may alter the rate at which ions are absorbed by plants (Singh, Et al., 2008).All these chemicals are present in different parts of Parthenium showed stimulation at lower concentration.Similar effect of root extracts of Parthenium was reported by Wakjira et al., (2006) and also stated that the aqueous extracts of flower seriously inhibited the growth of lettuce.The increased root growth of test species with lower concentrations of root extracts may also be attributed to increase the mitotic activity of root cells under allelopathic stress.Solanum test species exhibited a variable response with respect to extract concentrations.The varied susceptibility of different species to such extracts.According to Kanchan and Jaychandra (1979) and Pandey (1994), Parthenium is one of the best known plant invaders in the world linking allelopathy to exotic invasion.Allelopathy is expected to be an important mechanism in the plant invasion process.Lack of co-evolved tolerance of resident vegetation to new chemicals produced by the invader could allow these newly arrived species to dominate natural plant communities (Hierro and Callaway, 2003).P. hysterophorus, because of its invasive capacity and allelopathic properties, has the potential to disrupt natural ecosystems (Evans, 1997).
The leaf and shoot extract had strong inhibitory effect to root elongation of brinjal and to shoot elongation in crucifers and wild Asteraceae.Thus, sensitivity to allelochemicals and extent of inhibition varied with species and organs of the test species with higher concentration Allelopathic effect of P. hysterophorus may be an important mechanism involved in invasive success of this plant.Allelochemicals of this plant can be exploited as a source of natural weedicide to control other invasive species.Weeds in cropping systems are most often considered to be detrimental.However, the interaction of weeds with crops may be positive.In a study where controlled densities of wild mustard (Brassica campestris L.) were interpolated with broccoli (Brassica oleracea var.Premium crop), crop yield increased by as much as 50% compared with broccoli planted alone (Jimenez-Osornio, J. J. and Gliessman, S. R., 1987).The development of weed management strategies that make use of allelopathic crop plants is receiving increased national and international attention (Ewston and Agron 1997).Key areas of allelopathy research are: selectively to enhance allelopathic traits of crop cultivars in breeding programs; to transfer allelopathic genes into commercial cultivars through modern biotechnology; to enhance their weed-killing capability; and to identify and characterize those substances involved in strong allelopathic activity and to use then either directly as natural herbicides, or as models for developing new and biotechnology, research on these areas will be enhanced.Allelopathy will become an important component in the development of future integrated weed management strategies.Biological activities of receiver plants to allelochemicals are known to be concentration dependent with a response threshold.Responses are, characteristically, stimulation or attraction at low concentrations of allelochemicals, and inhibition or repellence as the concentration increases (Lovett, 1989).These phenomena have been widely observed in allelochemicals from living plants, in allelopathic effects from decaying plant residues, and from the gross morphological level to the biochemical level, including other growthregulating chemicals and herbicides.From above discussion we concluded that S. melongena was more sensitive to inhibitory effects of flower extracts than root extracts of P. hysterophorus.Allelopathic effect of P. hysterophorus may be an important mechanism involved in invasive of this plant.Allelochemicals of this plant can be exploited as a source of natural weedicide to control other invasive species.
One of the authors (l.S.) is indebted to the Head, Botany Department and Principal of the College, for providing necessary facilities to do the work.

Table 3 : Effect of Parthenium extracts on different parameters of Solanum after 65 DAP
1).In relation to root length with 20 and 40% of root and flower extracts showed 53.33, 33.33 and 26.66, 33.33% increasing.But with 100% of root extracts showed decreasing i.e. -13.33% over control.While, with 80 and 100% of flower extract showed suppressing value i.e. -16.66 and -13..33%.-44.44% of shoot length was increased with 20% of root extracts and maximum inhibition was recorded with 100% of root and flower extracts i.e. -16.67 and -22.22%.But with 40% of flower extracts is very sensitive for Solanum and showed maximum increase i.e. 28.89% over control.But in relation with fresh weight all the concentrations of root extracts showed maximum increase i.e. 17.91, 76.07, 60.12, 34.97 and 28.83% respectively.With 20 and 40% of flower extracts showed growth also i.e. 6.75 and 2.45%.But with 60, 80 and 100% flower extracts showed decrease i.e. -4.29, -14.7 and -38.65% respectively over control.All the conc.Of root extracts showed pronounced increase in dry weight i.e. 11.11, 75.92,

Table 2 : Effect of Parthenium extracts on different parameters of Solanum after 35 DAP
Table-2) with 20% of root extracts showed maximum increase in root length i.e. 110.52.While with 40% of flower extracts showed maximum growth i.e. 50% over control.With 100% of root extracts and 60, 80 and 100% of flower extracts showed decrease i.e. 15.37, -7.89, -28.95 and -47.37% over control.Maximum length was observed in shoot length with 40% of root and flower extracts i.e. 17.96 and 11.16%.On the other hand 80 and 100% of root and flower extracts showed decrease i.e. -48.50, -25.54 and -825, -25.97% over control.Observation on 20, 40 and 60% of root extracts and it was recorded effective result i.e. 33.33, 152.33 and 22.50% respectively in relation to shoot length.Fresh weight was enhanced with only 20% of flower extracts i.e. 4.33% over control.But with 80 and 100% of root extracts showed decrease value i.e. -11.67 and -46.00%.On the other hand 40, 60, 80 and 100% of flower extracts showed decreasing value i.e. -27.33, -33.00, -48.33 and -63.33% in relation to fresh weight over control.