Seed Characteristics and Germination Behaviour of Bauhinia malabarica Roxb.

Malabar Bauhinia ( Bauhinia malabarica ) is a native ornamental species belonging to the family Fabaceae, distributed throughout India in semievergreen and moist deciduous forests and in gardens. Information regarding seed characteristics and seed handling of the species is meagre. This study describes seed characteristics, germination behaviour and pretreatment for enhancing seed germination of B. malabarica . Treating the seeds with concentrated sulphuric acid for 30 min reduced germination duration up to 6 days and increased germination rate up to 100% against 22 days of germination duration and 10% germination in seeds without treatment. The results of this study are helpful for conservation and nursery practices of B. malabarica .


Introduction
Bauhinia malabarica Roxb., commonly known as Malabar Bauhinia/mountain ebony, is a deciduous tree belonging to the family of Fabaceae, distributed all over the Indo-Malayan region. The species is found throughout Indian subcontinent and popularised in different vernacular names as Arampuli (Malayalam), Malayathi (Tamil), Basavana pada (Kannada), Amli (Hindi), etc. In native range, the species is distributed in the semievergreen and moist deciduous forests up to 600 m. It is used as an ornamental plant in homesteads and gardens of the native range.
Studies of the genus Bauhinia is very limited compared with other genus like Caesalpinia, Cassia, Tamarindus, etc., under the family Fabaceae. Primary documentation of the genus Bauhinia in India was conducted during the eighteenth century [1]. Neotypification of the species Bauhinia malabarica was recently done by the Central National Herbarium of Botanical Survey of India [2]. Micromorphological characteristics of selected species of the genus Bauhinia were studied earlier [3]. Variation in size and structure of selected species of Bauhinia was examined and recorded by different scholars [4,5]. Analysis on mineral elements and nutritional and anti-nutritional contents in the seeds of B. monandra was conducted in an earlier study [6]. Phytochemical structure like polysaccharide and

Materials and methods
Periodical observations were carried out on mother plants of B. malabarica to identify optimum maturity index for seed collection. Mature pods (fruits) of B. malabarica were collected (March-April, 2016) from Peechi-Vazhani Wildlife Sanctuary (10°31′48″N; 76°20′50″E) in Thrissur District, Kerala, India. The pods were dried under sunlight (35-38°C) for 2 days, and seeds were extracted by splitting the pods. Extracted seeds were dried in shade, cleaned and stored in airtight containers. Seed characteristics such as morphology, moisture content and germination were evaluated. High constant temperature oven-dry method was used to determine seed moisture content [19]. The seeds were dried in hot-air oven for 1 h at 130°C. Seed moisture content (MC %) was estimated according to the formula of ISTA.
Seeds were subjected to different pre-sowing treatments to enhance seed germination and reduce the germination period. The following were the pretreatments applied for the study: T1: control (no pre-sowing treatment Seeds (n = 100 in 4 replications) were sown in germination trays having a size of 25 × 20 × 5 cm filled with vermiculite and kept in germination room (30 ± 2°C and 90% RH) under laboratory condition. Randomised block design was adopted for the experiment. Data on seed germination were recorded starting from seed germination till culmination and computed germination-related parameters. Germination initial time (GIT), germination percentage (GP), germination duration (GD), mean germination time (MGT), mean daily germination (MDG), germination energy (GE), peak value (PV) and germination value (GV) were calculated [20][21][22][23][24].
Germination-related parameters were determined as follows: Germination initial time (GIT) = Dg-Ds (2) where Dg = first germination day and Ds = seed sowing day.
Germination duration (GD) = Gf-Gi (4) where Gf = final day of germination and Gi = initial day of germination.
Mean germination time (MGT) = (Gt × Dt) / G where Gt = no. of germinated seeds at day-t, Dt = no. of days at 't' from the day of sowing and G = total no. of germinated seeds.
Mean daily germination (MDG) = GP / Gd (6) where GP = germination percentage and Gd = no. of days to complete germination.
Peak value (PV) = Highest number of seeds germinated / no . of days required to the peak germination (8) Germination value (GV) = PV × MDG (9) where PV = peak value and MDG = mean daily germination.

Statistical analysis
Each trait was analysed using mean values under the various pretreatments. The variation on mean values between these treatments were performed through analysis of variance (ANOVA) done by statistical software SPSS version 22.

Seed weight and moisture content
The study recorded 7092 ± 50 seeds per kilogram. Moisture content (MC %) of fresh seeds was 5.35%.

Maturity index
The optimum maturity indices for seed collection of B. malabarica were presented in Table 1. The maturity indices identified for determining optimum period for seed collection were colour of pods (yellowish-green turned to blackish-green), leaf number (minimum number of leaves), dehydration (pods become dehydrated) and hardness (pods and seeds become hardest).

Pod/seed characteristics
Colour, shape, size, type, weight, number of seeds per pod and per kg, type of germination, etc. are presented in Table 2. Figure 1 depicts germination pattern of seeds under various pretreatments. Seed germination among treatments was significantly different ( Table 3).

Seed germination
Germination-related parameters under different pretreatments such as germination initial time, germination percentage, germination duration, mean germination time, mean daily germination, germination energy, peak value and germination value are given in Table 4  Germination Initial Time (GIT): Germination initial time was 2 days after sowing in the treatments T4, T10, T11 and T12, whereas it was 5 days after sowing in T1, T2, T5, T8 and T9 treatments.
Germination Duration (GD): Seed germination started 2 days after sowing and completed in 28 days. The least GD noticed in treatment T12 (06 days) followed by T11 (09 days) and T10 (11 days) and the highest in T2 (26 days).

Mean Germination Time (MGT):
Mean germination time was more in T12 treatment (21.67) where the treatment gave 100% germination, whereas the least value was in seeds without any treatment (T1).
Mean Daily Germination (MDG): Mean daily germination was highest in the treatment T12 (16.67), and the lowest value was in T3 treatment (0.43).

Discussion
Maturity indices help to collect seeds with maximum viable seeds. The optimum maturity indices of B. malabarica identified in the present study were the colour of pod turned from yellowish-green to blackish-brown, minimum number of leaves, pods become dehydrated and the pods and seeds become hardest. A previous study reported that seed germination of Albizia lebbeck significantly influenced by date of pod collection [25]. Seed weight of B. malabarica in the present study showed 7092 ± 50 seeds per kilogram. However, in an earlier report, it is 1100-2600 seeds per kilogram [26]. Seed size is usually related with its vigour and a measure of potential performance; hence, seed weight is significant. Information regarding seed weight and moisture content is helpful for nursery practices and research-oriented studies and also an updating of the earlier information regarding seed weight and moisture content and seed characteristics.
The present study indicated that the highest germination was recorded in acid treatments (acid scarification for 30, 20 and 10 min). All other treatments exhibited poor performance in germination. Germination initiation period was minimum in the treatments T4, T10, T11 and T12, whereas maximum was in T1, T2, T5, T8 and T9 treatments. The lowest germination initial time shows speedy initiation of germination among pretreatments.
Estimation of germination percentage is the best tool to explain seed viability of a particular lot. Seeds treated with concentrated sulphuric acid for 30 minutes (T12) resulted in very high germination rate (100%) than that of other treatments. The study also revealed that the hormonal treatment had no significant role on seed germination of B. malabarica. A similar result was reported in an earlier study on B. rufescens after acid treatment [17]. Better performance in acid scarification on seed germination was reported in seeds of many species having hard seed coat [27][28][29]. Germination percent  is useful for computing seed requisite for desired number of plants. Pretreatment with high germination value indicates the germination power of seeds. Germination duration (GD) is helpful to understand the duration required for completing the process of germination. Germination duration in the present study varied with treatments (06-26 days). The study showed that the seeds scarified with concentrated sulphuric acid for 30 min helped to reduce germination period into 6 days compared to 26 days in seeds soaked in water for 24 h. The lowest GD shows the minimum period required to complete germination among pretreatments. Mean germination time (MGT) is the indicative of emergence performance of seed lots. Mean germination time (MGT) was highest in seeds treated with concentrated sulphuric acid for 30 min (21.67) where the treatment gave 100% germination, whereas the least value was in seeds without any treatment (T1). Similarly, mean daily germination (MDG), germination energy (GE), peak value (PV) and germination values were also highest in the treatment T12.
Mean germination time and mean daily germination are used as a gauge of the rate and time spread of germination. High MGT and MDG values indicate high germinability of seed lots due to pretreatments. Peak value indicates the maximum germination rate in a particular day, and germination value is the expected seedlings in the field or nursery. Germination energy and germination value are the easier way to understand the rate of germination and period of germination. Highest GE and GV show the enhanced germination and reduced duration.
The study resulted in scarification of seeds by concentrated sulphuric acid for 30 min which was the best pre-sowing treatments for enhancing seed germination and reduce germination period in B. malabarica. Previous studies showed that acid scarification is the best pretreatment to improve germination of seeds with hard seed coat [27][28][29]. Similarly, parameters like germination percentage, germination energy, mean germination time, mean daily germination, peak value and germination value were also highest in the acid treatment for 30 min compared to other treatments. High values of parameters indicate the germination potential of the seeds. Germination energy/germination value is the tool for indexing the speed and completeness of seed germination [22]. High germination energy and germination value show the effects of pretreatment on seed germination. Period of seed germination in B. malabarica is reported in an earlier study with 6-30 days and hot water treatment for 1 min followed by soaking in cold water for 24 hours as the best pretreatment [26]. Similarly, a high rate of germination observed in seeds of Hippophae salicifolia treated with thiourea [30]. The Forest Research Institute, India, reported only a low rate of seed germination (14-18%) in B. malabarica [31]. However, the present study revealed that the concentrated sulphuric acid treatment for 30 min shall reduce germination period (6 days) and increase germination rate (100%). An earlier study on Macaranga peltata revealed that combination of concentrated sulphuric acid and gibberellic acid resulted in improved germination rate [32].

Conclusions
The study gave update to seed characteristics and germination behaviour of B. malabarica. The investigation has documented maturity indices for determining optimum seed collection period of the species B. malabarica, and the data is very helpful for further seed biological studies and experiments on the species. The study suggested optimum period for collection of seed of B. malabarica is when yellowishgreen colour of pods turned to blackish-green, dehydrated and hard. The study recommended that concentrated sulphuric acid treatment for 30 min is the best pretreatment for enhancing seed germination and reducing germination period. establishment of Bauhinia rufescens. International Journal of Agricultural Science. 2011;6(7):584-592