Preface The Fifth Deans’ Committee of Indian Council of Agricultural Research has recently revised the syllabus of B.Sc. (Hons) Horticulture which is uniform throughout the country. The course ‘Fundamentals of Horticulture’ is taught in the first semester. The present textbook covers the entire syllabus sequentially in 19 chapters. Simple and lucid language has been followed for easy understanding of the beginners. The information contained in the book has been gathered from various published sources and internet websites which are mentioned at the end of each chapter under references. Attempts have been made to provide latest information; still some valuable information might have been missed. Questions are set at the end of each chapter to assess the understanding of the students. We have tried our best to remove the errors, typographical or otherwise, from the text; still there might be some. We would highly appreciate if it is brought to our notice for rectification in next edition. We cherish the encouragement and cooperation received from our family members during preparation of the manuscript. We congratulate M/S New India Publishing Agency, New Delhi for their support and publishing in a short time. Though the book is primarily written for B.Sc. (Hons) Horticulture students, the counterparts of B.Sc. (Hons) Agriculture also may be benefited. It may serve as a help book for post-graduate students.

1.1 INTRODUCTION India is the seventh largest country in the world in total geographical area and has second largest population next to China. Around 55 to 60 per cent of its population depend on agriculture and allied activities. Horticultural crops constitute a significant component of total agricultural production in the country. They require very intensive care in planting, carrying out different cultural operations, manipulating growth, harvesting, packing, transportation, marketing, storage and processing. 1.2 AGRICULTURE The term agriculture broadly refers to the technology of raising plants and animals. Agriculture is the science, art or practice of cultivating soil, producing crops and raising livestock in varying degree of proportion followed by marketing. In other words, it is the activity of man to produce three basic needs of human being, i.e., food, fuel and fibre (3F) by using terrestrial resources optimally. The term agriculture is derived from two Latin words ager meaning field or land and cultura meaning cultivation or growing.

2.1 INTRODUCTION Owing to a varied agro-ecological and eco- edaphic condition prevalent in one or other part of the country, quite a large number of crops are grown in different parts of India. India is rich in bio-diversity with four hotspots out of twenty-five in the world. About 356 domesticated plant species having economic and botanical importance and 326 species with their wild relatives are found in Indian sub-continent. Besides the above, 9500 other plant species are also available. More than 50 different types of fruits, 50 different types of vegetables, 95 types of spices and condiments, medicinal and aromatic plants, plantation crops and ornamental crop plants have been recorded. To avoid confusion and identity, the horticultural plants are grouped into different categories based on similarity or dissimilarities. Grouping of the crop plants with similar characteristics is referred as classification.

3.1 INTRODUCTION Life cannot be sustained without adequate nourishment. Human beings need adequate food for growth, development and to lead an active and healthy life. Animals satisfy basic food requirement mainly through natural selection. But human beings have access to a wide range of foods to choose to make up their diet. Since all foods are not of same quality from nutritional point of view, man’s ability to meet his nutritional need and maintenance of good health depend upon type and quantity of foods he is able to include in his diet to satisfy hunger. Human beings need a wide range of nutrients to perform various functions in the body and to lead a healthy life. Several reports have shown that adequate intake of fruits and vegetables forms an important part of a healthy diet and low fruit and vegetable intake constitutes a risk factor for chronic diseases such as cancer, coronary heart disease (CHD), stroke and cataract formation. The nutrients include proteins, fats, carbohydrates, vitamins and minerals. The foods containing these nutrients which we consume daily are classified as cereals, legumes, nuts and oil seeds, fruits, vegetables, milk and milk products and f lesh foods like fish, meat and poultry. Some foods provide only a single nutrient and some multiples. Scientific evidence indicates that frequent consumption of fruits and vegetables can prevent oesophageal, stomach, pancreatic, bladder and cervical cancers and that a diet high in fruits and vegetables could prevent 20% of most types of cancers. Reports indicate that increasing individual fruit and vegetable consumption by 600 g per day could reduce the global burden of stroke by 19% and decrease the risk of coronary heart diseases by 31% respectively. Realizing the food value of fruits and vegetables in human nutrition the Indian Council of Medical Research (ICMR) recommends per capita use of 120g fruits and 280g vegetables per day.

4.1 INTRODUCTION India enjoys a wide range of climates and agro-meteorological zones which are suitable for growing various kinds of horticultural crops like fruits, vegetables, f lowers, spices and condiments, plantation crops, and medicinal and aromatic plants. India is the largest producer, consumer and exporter of spices in the world. India stands second both in production of fruits and vegetables next to China. China contributes 21.2% in the world fruit production whereas India produces 12.6%. When we think of vegetables, China produces 49.5% and India produces 14.09%. India is the largest producer of Mango, Banana, Papaya, Coconut, Arecanut, and Cashewnut in the world. In the country, Andhra Pradesh (13.0%) is the leading state in fruit production followed by Maharashtra (11.2%). In case of vegetables, Uttar Pradesh stands first occupying 15.1% share followed by West Bengal and Madhya Pradesh in the range of 14.6% and 10% respectively. In cut flower production West Bengal ranks first. Total horticultural production for the year 2017–18 was 311.71 million tonnes from cropping area of 25.43 million hectares of land and an estimated production for the crop year 2018-19 is 314.87 million tonnes from an area of 25.6 million hectares.

5.1 INTRODUCTION The importance of the best quality planting material as an initial investment is a well-realized factor for persons engaged in horticulture field. So, nurseries have great demand for the production of plants, bulbs, rhizomes, suckers and grafts. But in general, good quality and assured planting material at reasonable price is not available many a times. Nursery is the basic need of horticulture. Plant propagation techniques and practices is the core of horticulture nurseries. The planting materials for horticultural plantations are raised from seeds and vegetative parts. The difficulty of procuring tree seeds and their rising cost makes it necessary to find means to increase seedling survival and growth. Raising a nursery needs a great skill. Nursery business has become an agro- business for the unemployed youths. Generally, various commercial crop growers require a good quality saplings or grafts of genuine type. So, nursery raising is quite a remunerative enterprise. Nursery is a special place where seeds are sown, plants are propagated, grown, nurtured to usable size for planting or for sale. Nurseries provide the necessary control of moisture, light, soil and predators and allow production of healthy and hardy seedlings.

6.1 INTRODUCTION The Climate and soil play important role in growth and development of the plant. Growers in general and fruit growers in particular should have adequate knowledge of the effect of various soil and climatic conditions on raising horticultural crops. Horticultural crops cannot be grown in all types of soil and climate. Hence zone- wise cultivation is made. Climate includes a number of parameters like temperature, rainfall, atmospheric humidity, wind, hail and light whereas soil covers factors like moisture content, texture, soil reaction, nutrient content, chemical composition and soil temperature. 6.2 SOIL Soil is a thin outer covering of the earth surface. It is the natural resource directly developed by different natural forces acting on natural materials. Soil serves as a base and support for plant growth. It is a basic medium for plant growth and supplies nutrients for growing plants. Soil is the home of the plant root and the reservoir for essential nutrients and water for growth and development of crop plants.

7.1 INTRODUCTION Gardening is a practice of growing different kinds of horticultural crops in a particular land area as a part of horticulture either for consumption or sale, export, beautification etc. Basing on the crops grown, gardens are named accordingly, e.g., for raising vegetables, it is vegetable gardens; for fruit crops, it is orchard; for plantation crops, it is estate plantation; for ornamental plants, it is gardening and landscape etc. The history of gardening is not new. In ancient time kings, emperors, rulers, sages were establishing different types of gardens for different purposes.

8.1 INTRODUCTION Orchard is a place or a piece of land where different kinds of fruit plants are planted in orderly manner and managed efficiently for production of successive yield to get assured economic return. An orchard being capital-intensive and long-term venture careful planning, layout, selection of site, preliminary operations etc. are to be done. It is easy to establish an orchard considering its features critically but difficult to manage afterwards. It needs high managerial skills and technically skilled manpower to carry out different orchard operations. Any lapses in management can lead to incur heavy loss.

9.1 INTRODUCTION Establishment of an orchard incurs long term investment for which it needs a very critical planning. As it is a long-term investment, plants planted in the orchard should suit to the prevailing climatic condition of that area. The land remains occupied as long as 40 to 50 years. Any mistake committed during initial year is hard to rectify later on. Proper layout of the orchard ensures optimum utilisation of land and resources for successive economic production. It becomes easy for different inter-cultural operations, harvesting and transportation of the produces. Uniform distribution of plants in the selected land in various systems of planting is done after proper layout. 9.2 LAYOUT The proper layout of orchard aims at accommodating maximum number of trees per unit land area, maintaining adequate space for proper development of the trees and convenient orchard management practices.

10.1 INTRODUCTION Most botanists identify trees by their leaves, f lowers and fruit. However, the plant architecture specialist is interested in trunks, branches and twigs. All types of fruit tree do not require pruning, e.g., mango, sapota, while some fruit trees can grow well naturally, e.g., pineapple, papaya as they do not require pruning. Most deciduous trees like apple, pear, almond etc. and grapes, ber, fig, citrus, pomegranate, guava etc. require pruning to train them for desired shape. 10.2 TRAINING Training is an operation by which the plant is made to develop an orderly structure or frame work. This is done by staking, tying, supporting, propping, trailing or spreading on certain structure with or without pruning of plant. Training is usually done when plants are young. Bending, twisting, decapitations are done by using springs of hard wire, where it is required. It is a physical technique which controls the shape, size and direction of plant growth known as training or in other words, training in effect is orientation of plant in space through techniques like tying, fastening, staking, supporting over a trellis or pergola in a certain fashion or pruning of some parts.

11.1 INTRODUCTION Plant growth regulators have remained an important component in horticulture from time immemorial because they were effective means of quantitative as well as qualitative improvement in growth and development of crops. Plant Growth Regulators (PGR) are diverse group of organic compounds other than nutrients, produced artificially or by plants which in low concentrations promote, inhibit or modify the physiological process in plant. The term includes both naturally occurring phytohormones as well as synthetic compounds. These are produced naturally in higher plants, controlling growth or other physiological functions at a site remote from its place of production and active in minute amounts. Plant Growth Regulators are used in different forms like liquid, powder, paste etc. “Hormone” is Greek word derived from “hormao”, which means to stimulate. Thimone (1948) suggested the use of term ‘phytohormones’ as the organic substance, which are produced naturally in plants, synthesised in one Part And usually translocated to other part wherein every small quantity affects the growth and other physiological function of the plants. To distinguish them from the animal hormones they are termed as phytohormones. Auxin was the first hormone to be discovered in plants and at one time considered to be only naturally occurring plant growth hormone. The role of plant growth regulators in various physiological processes such as seed germination, f lowering, fruiting, seed development, fruit ripening and yield etc. in different crop plants is well established (Kiran et al., 2011). There are five classical phytohormones: auxins, gibberellins, cytokinins, ethylene and abscisic acid. Besides classical phytohormones a variety of other compounds that play roles in plant growth and development have also been identified, including jasmonic acid, salicylic acid, brassinosteroids and polyamines (Basra, 2000). The application of plant growth regulators in agriculture has started in 1930 in the United States. Ethylene, a naturally occurring substance, is one of the first plant growth regulators being discovered and used successfully for enhancing f lower production in pineapple (Fishel, 2006). Its toxic effects to human beings are low.

12.1 INTRODUCTION Water is a factor of prime importance in agriculture industry. Water management is one of the largest and most important inputs into an orchard. An efficient water management refers to artificial application of water, i.e., irrigation in crop root zones in case of soil moisture deficit and removal of water, i.e., drainage from the root zone in case of excess so as to provide the crops a most optimum soil moisture regime for best production. It means how best we are in irrigating and dewatering our fields so that plants are protected from stress as well as water logging (Goswami, 2015). Water resources are continuously overburdened with excessive drafts and water sources are shrinking at faster rate. Groundwater levels are falling at the rates faster than ever. Under this type of circumstances, judicious use of water should be given due attention for water conservation and also in increasing water productivity. Area under horticultural plantations is increasing at exponential rate. The unproductive uplands and low productive midlands and lowlands are brought under fruit based horticultural plantations. For a profitable orchard enterprise, a well-planned irrigation system and efficient water management practice are of utmost importance. Horticultural sector, which includes vegetables, f lowers and fruits, has enormous potential for development owing to varying agro-climatic conditions in India. There is tremendous scope for increase in productivity and quality of horticultural crops, which is necessary to compete in this modern competitive world market. There are many production technologies available to increase the per unit vegetable production and also to increase its quality. One of the widely acceptable, reliable and cost- effective technologies is pressurized irrigation.

13.1 INTRODUCTION Weed is defined as an unwanted plant growing at a place where it is not desired. Weeds are unwanted and undeserved plants that interfere with the utilization of the land and water resources and thus adversely affect crop production and human welfare. Thus, a plant out of its place or a plant growing where it is not desired at that time is a weed. Weed has no species, but name was suggested as a useless and harmful plant that persistently grows where it is quite unwanted. According to Jethro Tull, the father of Weed Science, weed is defined as the unwanted, undesirable plant, growing out of their proper place, which interfere with the utilization of natural resources, prolific, persistent, competitive, harmful and even poisonous in nature and can grow in adverse climatic conditions. Of the total losses caused by pests, weeds have a major share (30%). They reduce the crop yield and decrease the quality of produce and hence reduce the market value of the turnout. Weeds are a major problem to horticultural production as they take advantage of their initial slow growth rate. Weeds reduce crop yield, lower their quality, act as alternate host of many pests/diseases and also have allelopathic effects on crops. Weeds also interfere with vital farm operations like weeding, fertilizer application, herbicide application and harvesting. Both annual and perennial weeds are common in their actions reducing the productivity of fruit trees. Weeds also provide shelter to various pathogens by becoming an alternate or collateral host of invaded crops by a number of fungal, bacterial and viral diseases. The worst weeds found in the world are Cyperus rotundus, Cynodon dactylon, Echinochloa crusgalli, Echinochloa colona, Eleusine indica, Sorghum halepense, Imperata cylinderica, Eichhornia crassipes, Portulaca oleracia, Chenopodium album, Digitaria sanguinalis, Convolvulus arvensis, Avena fatua, Amaranthus hybridus, Amaranthus spinosus, Cyperus esculentus, Paspalum cojugatum, Rottboelia exaltata (Rana and Rana, 2016). All of these weeds are found in India. It has been reported that about 36-42% losses may occur due to inadequate management of weeds in apple (El- Metwally and Hafez, 2007). Therefore, management of weeds in all agro-ecosystems is crucial to sustain our crop productivity and to ensure the food security to the rapidly increasing population.

14.1 INTRODUCTION India is conferred with a varied agro-climatic condition which are highly favourable for growing a large number of horticultural crops such as fruits, vegetables, root tubers, ornamental, aromatic plants, medicinal herbs, spices and plantation crops like coconut, areca nut, cashew and cocoa (Ministry of Information and Broadcasting, GOI, 2008). India is next only to China in area and production of vegetables and occupies prime position in the production of caulif lower, second in onion and third in cabbage in the world. After achieving food security, it is being increasingly felt that India needs to achieve nutritional security for betterment of its population. In achieving nutritional security fruits and vegetables play an important role (Ganeshmurthy et al.2011). Although we have achieved good production levels of fruits and vegetables, the present production of fruits and vegetables may not be enough to meet out the demand. To feed the ever-increasing population in a sustainable way a tremendous effort will have to be made to increase the production of fruits and vegetables both horizontally and vertically through a rational and balanced use of production inputs, specially the mineral fertilizers. Soil fertility is a key factor for successful crop production, and it is a measure of capacity of soil to supply plant nutrients. The importance of soil fertility and fertilizer management is being increasingly recognized in all countries recently to meet the demand for food and other agricultural raw materials. Intensive use of fertilizer, intensive cropping with high yielding cultivars have increased the food production and reduced the food shortage, but it has also brought in numerous problems of soil fertility, soil and water pollution. On the other hand, fast depletion of nutrients due to over exploitation, a wide-spread deficiency of N, P, K and S coupled with micro-nutrients deficiencies especially Zn and boron has been noticed in many soils. Further deforestation, shifting cultivation, burning of trees, bushes, grasses and cow dung, soil erosion, soil degradation, nutrient losses, excessive fertilizer application, leaching losses etc., have aggravated the depletion of soil fertility status. It is being realized that the future of Indian agriculture is closely related to scientific management of soil fertility along with judicious and efficient use of fertilizers. Soil fertility and nutrient management is one of the important factors that have a direct impact on crop yield and quality. Soil test reports help in determining soil organic matter, pH, electrical conductivity, cation exchange capacity, and levels of important macronutrients (phosphorus, potassium, calcium, magnesium) and micronutrients (boron, zinc, etc.). These reports also help estimating lime or sulphur application rates to increase or reduce soil pH, respectively. Maintaining a soil pH between 6.0 and 7.0 is recommended for most crop rotations that include vegetable crops.

15.1 INTRODUCTION Cropping system is defined as a cropping pattern followed on a farm and its interaction with farm resources, other farm enterprises and production technology. In other words, cropping system refers to a combination of crops in time and space. When annual crops are considered, a cropping system usually means the combination of crops within a given year (Willey et al., 1989). This cropping system might provide insurance against crop failure by reducing disease (Fininsa and Yuen, 2002) and insect incidence (Gahukar, 1989) or against unstable market prices by planting two or more crops under intercropping and thus, reducing the risk of unexpected changeable prices. Intercropping in scientific way should be viewed from a theme of competition to one of collaboration with mutually beneficial relation with proper planning to get more return from limited natural resources. Legumes have been the common intercrops in any intercropping system owing to their short duration, N-fixing ability etc. Even though non-leguminous vegetables require longer duration than legumes and are non-N-fixers, they can also be suitable as intercrops because of their high profitability and higher yields.

16.1 INTRODUCTION Mulch, a technical term, means ‘covering of soil’. A mulch is a layer of material applied to the surface of soil. It may be applied to bare soil or around existing plants. Mulches of manure or compost will be incorporated naturally into the soil by the activity of worms and other organisms. Mulching is the process or practice of covering the soil/ground to make more favourable conditions for plant growth, development and efficient crop production. While natural mulches such as leaf, straw, dead leaves and compost have been used for centuries, during the last 60 years the advent of synthetic materials has altered the methods and benefits of mulching. The research as well as field data available on effect of synthetic mulches make a vast volume of useful literature. In this manner it plays a positive role in water conservation. The suppression of evaporation also has a supplementary effect; it prevents the rise of water containing salt, which is important in countries with high salt content water resources.

17.1 INTRODUCTION Bearing habit indicates position of f lower bud with respect to vegetative growth of the plant after cessation of juvenility. Different fruit trees have different bearing habits. The knowledge of bearing habits will be of much importance for regulating the bearing of any plant by means of pruning. Terminal bearers are not normally pruned, whereas in case of lateral bearers pruning certainly increase the bearing, as it encourages the sprouting of lateral buds. Fruit trees may bear the fruits either terminally on a long or short growth, laterally on present or past season growth or adventitiously from any point on the trunk or root. The relative position of a fruit with reference to its potential bud giving rise to f lower or inf lorescence in the shoot is known as bearing habit. Knowledge on the bearing habit is a pre-requirement before performing pruning in any fruit crop (particularly in ber, guava, grape etc.). Proper understanding of bearing habits helps a lot in manipulating time and period of f lowering and fruiting which consequently inf luence harvesting and yield of better-quality fruits.

18.1 INTRODUCTION The decline in productivity of old and senile orchards existing in abundance has become a matter of serious concern for the orchardists, traders as well as scientists. In India 30-35% area under fruit crops is occupied by old, senile, and pest-and-disease- affected orchards. For overcoming the problem of unproductive and uneconomic orchards existing in abundance, large scale uprooting and replacement with new plantations will be a long term and expensive strategy. Thus, rejuvenation of old and senile orchards is a good alternative.

19.1 DEFINITION OF ORGANIC FARMING 1.According to IFOAM (International Federation of Organic Agriculture Movement), Organic Farming definition includes all agricultural system that promote the environmentally, socially and ecologically sound production system of food and fibres. IFOAM stresses and supports the development of self- supporting system on local and regional level. 2.As per the definition of the USDA study team on organic farming “organic farming is a system which avoids or largely excludes the use of synthetic inputs (such as fertilizers, pesticides, hormones, feed additives etc) and to the maximum extent feasible rely upon crop rotations, crop residues, animal manures, off-farm organic waste, mineral grade rock additives and biological system of nutrient mobilization and plant protection”. 3.In another definition FAO suggested that “Organic agriculture is a unique production management system which promotes and enhances agro-ecosystem health, including biodiversity, biological cycles and soil biological activity, and this is accomplished by using on-farm agronomic, biological and mechanical methods in exclusion of all synthetic off-farm inputs”.

Index A Advantage of Nursery Raising, 132 Aesthetic Value, 10, 166 Agriculture, 1, 2, 3, 12, 53, 60, 61, 62, 63, 64, 66, 67, 69, 72, 74, 75, 76, 77, 79, 81, 84, 87, 88, 90, 94, 95, 97, 98, 102, 103, 105, 109, 110,111, 114, 115, 118, 130, 135, 138, 173, 214, 227, 240, 271, 272, 274, 281, 289, 299, 300, 354, 355, 356, 357, 360, 361, 362 Alkali Soil, 299, 300 Alternate Bearing, 187, 192, 335 Annual, 4, 24, 25, 27, 29, 30, 35, 131, 134, 169, 170, 176, 180, 186, 188, 209, 210, 256, 257, 260, 265, 268, 271, 301, 304, 305, 309, 314, 319, 333, 345, 349, 359, 360 Anthesis, 218, 327, 335, 337 Apiculture, 13, 38 Arbour System, 207 Aromatic flowers, 26