Evaluating Eggplant Collection Samples and Selecting Primary Donors Based on Physiological Indicators

The article presents the findings of a biomorphological evaluation conducted between 2016 and 2018, focusing on 105 eggplant collection samples sourced from different geographical origins on the Absheron Peninsula in the Republic of Azerbaijan. Additionally, 59 of these samples underwent evaluation based on physiological indicators. The research categorized the eggplant samples into three groups based on their ripening time: mid-season (81-100 days) - 24.9%, mid-late-season (101-120 days) - 56.2%, and late-season (121-148 days) - 21.9%. Specific eggplant varieties were identified for each group. Group I (81-90 days) included representatives 140/A, 69/B, 141, 142, 152, and 162, while Group II (101-102 days) comprised samples 137, 140/B, 149/A, 149, 149-199, 213, 232, 239, 242, and 243. Group III (121-124 days) consisted of varieties exhibiting late-ripening characteristics. Some varieties within the collection showed variations in leaf area, photosynthetic potential, chlorophyll content in leaves, absolute leaf surface density, total wet and dry biomass. These characteristics make them valuable primary candidates for future breeding efforts, targeting enhanced productivity and adaptability. The study also suggested an optimal model for photosynthetic indicators to achieve high eggplant yields (ranging from 290 to 800 q/ha).

The Scientific Research Institute of Nutrition recommends a yearly eggplant consumption of 2-5 kg per person for normal life activity.However, our calculations indicate that this amount should be at least 5-8 kg annually.When considering various canned eggplant products, such as salted, vinegared, and caviar forms, the recommended intake should be at least 9-12 kg per year.Factoring in the projected population of the republic in 2024-2025, which will exceed 11 million people, the estimated demand for eggplant production is 99-132 thousand tons.Regrettably, the current average eggplant production in Azerbaijan stands at only 86,519.73tons 1 .
Several research studies have investigated the factors that impact the ideal growth and development of eggplant varieties and hybrids.These works have clarified both the positive and negative effects of environmental factors on eggplant development and have put forth suggestions for optimization.While the influence of plant structure, leaf surface, and certain photosynthetic parameters on eggplant productivity has been examined for high-yielding varieties in various studies, an optimal model for these factors has not been proposed yet 5,6,7,8,9 .
The aim of this study is to assess the eggplant collection samples based on photosynthetic indicators and productivity, with the objective of identifying the optimal criteria for developing a high-yielding variety model.

MATERIAL AND METHODS
The material for this study consisted of samples obtained in 2016-2017 from various sources, including the gene foundation of the Scientific Research Institute of Vegetable Growing, All-Russian Research Institute of Vegetable Breeding and Seed Production (VNIISSOK), Institute of Genetic Resources of the Ministry of Science and Education of the Republic of Azerbaijan, and the World Vegetable Center.
The leaf surface area of eggplant varieties was measured using a portable device called LI-3000 C, while the chlorophyll content in the leaves was assessed using a Chlorophyllmeter SPAD-502 by comparing the results with the device's attached table.To determine the amount of dry biomass and dry matter, the method described by A.I. Ermakov was employed 10 , and the raw biomass was measured by weighing on a chemical-technical balance.
The photosynthetic potential (PP) was calculated by multiplying the leaf surface area (Lor) measured during the vegetation period by the number of days the vegetation lasted (Tv).
PP= Lor x Tv 11,12 The absolute leaf surface density (ALSD) refers to the dry leaf mass per unit area of the leaf surface, expressed in mg/cm 2,12 .
The research findings underwent statistical analysis, and correlations between various indicators were established 13,14 .A total of 105 collection samples, situated in the source material nursery, were examined, with physiological studies conducted on 59 of them.The samples were planted using the seedling method in a scheme of 70x25 cm.The results were compared with regionalized varieties Zahra and Gyanja in Azerbaijan.Following planting, essential agrotechnical measures such as irrigation, fertilization, mulching, and dredging

RESULTS AND DISCUSSION
Based on the phenological observations, the studied collection of samples can be categorized into three groups based on their maturity, from the Consequently, the research revealed that the majority of the studied samples (59 samples or 56.2%) belonged to the mid-late-season group, similar to the regionalized Zahra variety.Among the samples, 140/A proved to be the earliest maturing variety, taking 81 days, while 216 was the latest, maturing in 148 days.
A statistical analysis of the 2-year (2016-2017) and 3-year average productivity indicators of the studied collection samples was conducted, leading to the determination of an average mathematical value of 406.78±13.20 c/ ha.The coefficient of variation was found to be 24.92%, and the SID 05 amounted to 37.77 c/ha.Based on the statistical analysis, it was observed that 32 collection samples (30.48%) demonstrated higher values in terms of average productivity, ranging from 460-880 c/ha, exceeding 444.55 c/ ha/ha during the research years, with a 95% level of probability.Conversely, 55 samples (52.38%) showed lower values with an average productivity range of 200-360 c/ha.The average yield of the remaining 18 samples (ranging from 369.0 to 453.0 c/ha) could not be considered reliable since neither the upper nor lower values fell within the interval of the 95% probability level (Fig. 2).The typical representatives of high-yielding varieties (168, 140/A, 206, 179/A, and 254) exhibited yields ranging from 547-880 g/ha.
Based on the conducted research, it can be concluded that certain variety samples of different geographical origins, introduced from foreign countries, have successfully adapted to local conditions and demonstrated advantages in terms of both biomorphological and value-economic characteristics.These variety samples can be regionally classified in the country and utilized effectively in further breeding programs aimed at enhancing productivity.The growth processes and accumulation of dry matter, as well as other beneficial compounds such as sugars, ascorbic acid, proteins, and amino acids, are closely linked to photosynthesis, which is an essential physiological property of plants 15,16,17,18 .
Throughout the years of research, 59 eggplant collection samples were evaluated based on parameters including leaf surface area, photosynthetic potential (PP), absolute leaf surface density (ALSD ), total wet and dry biomass, leading to the proposal of an optimal physiological parameter model for high-yielding varieties.Statistical analysis of the evaluated indicators indicates that the average leaf surface area for the collection samples was 4.48 ± 0.48 thousand m 2 /ha, with a coefficient of variation of 76.10% and an SID 05 of 1.31 thousand m 2 /ha or 26.84%.Consequently, due to the high coefficient of variation, it becomes possible to select samples (ranging from 12.6 to 18.1 thousand m 2 /ha) that significantly differ in terms of leaf surface area with a 95% probability.Notable examples of these samples include 181 (12.6), 223 (12.7), 226 (13.1), 189 (13.3), 140/B (13.4), 180 (13.7), 167 (16.8), and 222 (18.1 thousand m 2 /ha) (Fig. 3).
As depicted in Figure 5, all other samples, with the exception of 181 and 180, exhibit elevated values of photosynthetic potential (ranging from 1601.1 to 2511.3 m 2 day/ha).
It is well-established that the amount of chlorophyll present in the leaves provides insights into the efficiency and productivity of a plant's photosynthetic apparatus 14,19,20 .Through the research conducted, it was determined that the average amount of chlorophyll in the leaves (mg/100 g of wet weight) among the eggplant collection samples is 249.47±6.97,with a coefficient of variation of 21.45% and SID 05 of 19.99 mg/100 g or 8.0%.While this characteristic shows less variability compared to leaf area and plant photosynthetic potential (PP), it still allows for a sufficient number of initial donors to be selected based on the amount of chlorophyll in the leaves.Figure 4 displays samples with high chlorophyll content, ranging from 309.4 to 332.0 mg/100 g ww.
Assessing the collection accessions based on the ALSD value, which serves as a crucial indicator of a plant's adaptability to environmental factors, can prove to be a valuable "test" indicator in breeding, addressing both adaptability and productivity 11,12,21,22,23 .The average value of ALSD (absolute leaf surface density) was calculated to be 6.53±0.22mg/ cm 2 , with a coefficient of variation of 25.49%, and an SID 05 of 0.31 mg/ cm 2 , corresponding to 4.75%.Figure 7 6 and  7).These samples hold potential for effective use in breeding programs aimed at enhancing both productivity and adaptability.
The research resulted in the identification of an optimal model for photosynthetic indicators to achieve different eggplant yields (ranging from 290 to 800 g/ha) from various varieties.These indicators can be attained by properly adhering to agrotechnical guidelines.The study demonstrates that, in order to obtain 700-800 c/ha of eggplants on the Absheron Peninsula, the recommended leaf surface area should be within 15-18.5 thousand m 2 / ha, the crop's photosynthetic potential (PP) should be at least 1800 thousand m 2 day/ha, the absolute leaf surface density (ALSD ) should exceed 9.02 mg/cm 2 , the amount of chlorophyll in the leaves should be at least 331 mg/100 g wet weight, and the total wet and dry biomass should be more than 200 and 28.3 c/m 2 ha, respectively (see table ).

CONCLUSION
Based on the biomorphological evaluation of 105 eggplant collection samples and physiological indicators of 59 samples conducted on the Absheron Peninsula of the Republic of Azerbaijan from 2016 to 2018, the following conclusions can be drawn: 1.The eggplant collection samples are categorized into three groups based on their ripening period: Group I (21.9%) represents mid-season varieties with a ripening period of 81-100 days, Group II (56.2%) includes mid-late-season varieties with a ripening period of 101-120 days, and Group III ( 2. Selected among the varietal samples are those exhibiting variations in leaf surface area, photosynthetic potential of plants, chlorophyll content in leaves, specific surface density of leaves, total wet and dry biomass.These samples are highly recommended as valuable primary donors for future selection processes, with a focus on enhancing productivity and adaptability.3. A recommended model of photosynthetic parameters is proposed to achieve a high yield from eggplant plants, ranging from 290 to 800 q/ha.

Fig. 1 .
Fig. 1.Organizing the collection samples of eggplants based on their level of ripening (averaged data from 2016 to 2018).

Fig. 2 .Fig. 3 .
Fig. 2. Organizing the collection samples of eggplants based on their yield (averaged data from 2016 to 2018)