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FRUIT SCIENCE: CULTURE AND TECHNOLOGY: VOL. 01: BASIC ASPECTS AND PRACTICES

J.S. Bal
  • Country of Origin:

  • Imprint:

    NIPA

  • eISBN:

    9789389992441

  • Binding:

    EBook

  • Number Of Pages:

    450

  • Language:

    English

Individual Price: 2,995.00 INR 2,695.50 INR + Tax

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The book on” Fruit Science: Culture and Technology- Volume I: Basic Aspects & Practices” is a well informed work incorporating all the detailed aspects of fundamental horticulture; propagation and rootstocks selection and post-harvest fruit technology. The scientists/experts have contributed their valuable knowledge in their respective field in this book. The book will be highly useful to the graduate/post-graduate students, growers, nurserymen, scientists and Horticulture Development Officers working in the field.

0 Start Pages

Preface India is producing varieties of tropical, sub-tropical and temperate fruits in different regions. Horticulture has emerged as a major area of growth in the agriculture sectors. The cultivation of fruit crops has out performed many other field crops with respect to production and average productivity. In India, the fruit crops now occupies 6.4 million hectares which   is about 27 per cent of the total area under agriculture in the country. Horticulture is also facing certain challenges in the ways of successful fruit growing. Some of them are marketing of fruits, post-harvest losses, climate change, shortage of quality planting material and competition in global markets. To sustain the existing trend in increasing areas and production under fruit crops, efforts have to be made at all levels to make horticulture more lucrative and interesting. Towards this direction, a comprehensive information is compiled in the form of a book on various aspects of fruit culture .The information is shared in four different sections denoted to (i) fruit area and production scenario, (ii) fruit plant fundamentals culture and technology (iii) fruit plant propagation technology and (iv) post-harvest fruit technology. Further various aspects of fruit culture and technology with special reference to fruit area and production status, problems in fruit cultivation and future scope of fruit growing; planning and planting, climatic and soil adaptability, water and nutritional need, physiology of fruit plants, growth and development of fruits; propagation methods, techniques and rootstocks,  tissue culture and biotechnology, seed germination and dormancy, use of propagation media, mixture and containers, care of propagated plants and protected cultivation were dealt in detail. In the last section, details about maturity and ripening, grading, packaging, storage and transportation of fruits and treatments for enhancing shelf life of fruits are discussed.

 
1 Fruit Area and Production Status
J.S. Bal

INTRODUCTION The climate of India is favourable for production of a variety of tropical, subtropical and temperate fruits. The area under cultivation, production and productivity of fruit crops has increased significantly during the last fifteen years. Horticulture has emerged as major area of growth in the agricultural sector and has out performed other crops with respect to production and productivity. The increase in fruit production was improved considerably from 43.0 million tonnes in 2001-02 to 91.4 million tonnes in 2015-16 (Table 1). This increase in production has come from an increase in area under different fruit crops and overall increase in productivity. In this way, India has maintained its second rank in global production of fruits next only to China. The fruit area increased from 4 million hectares in 2001-02 to 6.4 million hectares in 2015-16. On the basis of fruit production, it is estimated that per capita fruits availability in India 190 g per day which is still less than the recommended quantity of 230 g per capita per day.

1 - 38 (38 Pages)
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2 Planning and Planting of an Orchard
Jaswinder Singh Brar and Krishan Kumar

A. PLANNING OF AN ORCHARD Orchard is a long-term investment and needs proper planning and layout before establishment. Mistakes committed during planning and planting of fruit trees cannot be rectified. While planning and planting a new orchard, it is very important to carefully assess all the factors that will ultimately affect fruit yield and orchard sustainability. The aspects like location and site selection, suitability of soil and subsoil, suitability of fruit crop and varieties, plant spacing, market potential and source of nursery plants must be taken care of seriously. Thus, one should avail of expert advice on the establishment of new orchards and their proper maintenance.

39 - 56 (18 Pages)
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3 Suitability of Climate and Soil
Jaswinder Singh Brar

INTRODUCTION The planning of new orchard is very important aspect of fruit glowing which needs special attention and care to make it more profitable venture. The climate and soil of particular area are the major chief natural factors in the orchard establishment. The proper combination of this governs the success of fruit growing   A. SUITABILTY OF CLIMATE FOR FRUIT PLANTS Climate refers to an average condition of the atmosphere over a long period, whereas, the term weather refers to the current and temporary atmospheric conditions of an area. Climate is the principal factor for optimum vegetative and reproductive growth of plants. The success or failure of crop in a particular locality depends upon the prevailing climatic conditions. In our environment it is fundamental force which includes various components of climate like temperature, humidity, wind, light, rainfall, hail and frost. These factors should be taken care of for successful fruit production. All cultivated crops including fruit crops have certain natural threshold limits of the climatic parameters for their normal growth. The important climatic components which affect fruit crop production are given below:

57 - 74 (18 Pages)
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4 Soil Cultural Practices Management
S.K.Upadhyay

INTRODUCTION Soil is one of the most important factors associated with the success or failure of fruit production. Orchard soil management refers to those practices in the soil that aim at getting maximum productivity/production of quality fruits within the limits of soil, water and fertility management over the years. The decision regarding the practices of orchard management should always be taken well in advance before planting of an orchard. The practices for orchard management should be executed in a timely manner during the lifetime of the orchard. An efficient orchard management system always ensures higher return to the grower. However, no single management practice can be recommended for all orchards. The management systems varies from orchard to orchard, locality to locality, soil to soil, from one set of climatic conditions to another set of climatic conditions etc. These systems also have their own merits and demerits. Thus the choice of best suitable system depends on many factors such as climate, topography, rainfall, tree spacing, planting system/ orchard design, root depth of tree, economic condition of orchardists, fertility status of soil and type of main fruit crop etc.However, it should be combined with pruning, nutrient and water management, provision for pollination, fruit thinning and disease and pest management in order to obtain desirable tree growth and vigour with the aim to promote precocity with high productivity. The objectives of an ideal soil management system should be:

75 - 96 (22 Pages)
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5 Fruit Plant Canopy Management
N. Sharma, Chaitanya R. Belsare and D.P. Sharma

INTRODUCTION Canopy management is one of the most important management practices in an orchard. It is the ‘art’ of fruit growing involving manipulation of tree canopies to optimize the production of quality fruits. In fact it forms the basis of precociousness, productivity and longevity of the fruit trees. Canopy management is an important aspect of fruit culture due to its effect on yield, quality, vigour, and the prevention of diseases.   In orchard, light is critical to the growth and development of trees and their fruits. The green leaves harvest the sunlight to produce carbohydrates and sugars which are transported to the sites where they are needed – buds, flowers and fruits. Better light penetration into the tree canopy improves tree growth, yield and fruit quality. Training and pruning, affects the tree shape and facilitate exposure of leaves to sunlight. An ideal training strategy centres around the arrangement of plant parts, especially, to develop a better plant architecture that optimizes the utilization of sunlight and promotes productivity. Besides, development of strong scaffold system helps the trees to produce heavy crop loads of quality fruits without any major limb breakage.

97 - 116 (20 Pages)
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6 Nutritional Needs of Fruit Plants
P.P.S. Gill

INTRODUCTION The chemical compounds needed for growth and metabolism in plants are termed as nutrients. Mineral nutrition of fruit plants is a vital soil management practice in an orchard. The nutrients are converted to cellular constituents or used for energy purposes through metabolic process. Broadly the essential plant nutrients may be divided into macro-nutrients and micro-nutrients. Macro nutrients are needed in plants in relatively higher amounts than micronutrients.   Macro nutrients: C,H, O, N, P, K, S, Ca, Mg.  Micro nutrients: Fe, Mn, Cu, Zn, Mo, B, Cl, Ni.   Altogether 17 elements are considered essential for normal growth and production of a plant.While elements like cobalt, sodium and silicon have been established as essential elements for some plant species and not all. C-H-O matrix accounts for over 90% of the dry matter and is usually 20 to 50% of the fresh weight of the whole plant. Chloride is a most unusual nutrient as it is often present in plants in high concentrations yet its essential requirement is very much lower. Chlorine like Na and K plays an important role in osmoticum. The nutritional needs of fruit trees can be assessed through leaf and soil analysis, tree growth and cropping, and past experience.

117 - 136 (20 Pages)
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7 Water Need of Fruit Plants
J.S. Chandel and Chaitanya R. Belsare

INTRODUCTION Water is one of the most important inputs essential for tree growth, development and fruit production. Fruit trees need it continuously during their life in optimum quantities. It profoundly influences photosynthesis, respiration, absorption, translocation and utilization of mineral nutrients, and cell division besides some other processes. Both its shortage and excess affect the growth and development of a plant directly and, consequently, its yield and quality. In India, however, rainfall is notoriously capricious, causing floods and droughts alternately. Its frequency distribution and amount are not in accordance with the needs of the particular fruit crops. Artificial water supplies through irrigation on one occasion, and the removal of excess water through drainage on another occasion, therefore, become imperative, if the fruit crops are to be raised successfully. Water management in India, thus, comprises irrigation or drainage or both, depending considerably on the environmental conditions, soil, crops and climate. Applying the proper amount of water at the right time is important for reducing costs and maximizing profits. It is essential, therefore, that there be a scientifically sound method for determining when to irrigate and how much water to apply for optimum crop response and efficient use of resources.

137 - 152 (16 Pages)
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8 Physiology of Fruit Plants
J.S. Bal and K.S. Gill

INTRODUCTION Plant growth regulators (PGR) are bioactive molecules that modulates the physiological processes in plants and are effective at ultra-low concentrations. Minute alteration in the concentration and bioactive forms of PGRs’ throughout the plant development phases regulate the flowering, fruit set and development. The use of plant growth substances to control fruit set, size, shape, and maturation has become important in agriculture today because they have the ability to increase fruit size, colour, and shape, thereby increasing the marketability. By hastening or delaying maturation the grower can utilize peak demands, avoid unfavourable environmental conditions, and extend the market period. PGRs are applied in fruit crops at all developmental stages for various purposes as discussed below: 

153 - 178 (26 Pages)
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9 Growth and Development of Fruits
N. Sharma and Preet Pratima

INTRODUCTION   Growth and development are often used interchangeably, however, these describe separate events during the life cycle of a plant. To understand these precisely, let us take the example of multicellular organisms like annuals, monocarpic or flowering plants (angiosperms) including fruits, vegetables, flowers etc. which begins their life from a single cell fertilized egg, the zygote. The zygote develops into embryo through the cell division and differentiation. When we sow the seed in garden or pots, in a few days a young seedling emerge. With the passage of time, the seedling grow in size, the number of leaves increases, in perennial plants branching occurs for few years, and after putting forth the requisite vegetative growth plant begins flowering, produces fruits, seeds and finally the plant senesce at certain period. Generally three terms “growth”, differentiation” and “development” are used to describe the different events during the life cycle of a plant.

179 - 202 (24 Pages)
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10 Propagation Methods
V.K. Wali, Amit Jasrotia and Parshant Bakshi

INTRODUCTION The propagation of plants has been one of the fundamental occupations of mankind since beginning of civilization. Plant propagation involves the application of specific biological principles and concepts in the multiplication of plants for useful purposes. The present day plant propagation industry is large and complex and involves not only the group that multiplies the plants for sale and distribution, but also a large group of industries that provide services, sell the product, is involved in regulation, provides consultation carries on research or is involved in teaching. The key person with in this complex, however, is the plant propagator who possesses the knowledge and skill either to perform or to supervise the essential propagation tasks for specific plants.

203 - 238 (36 Pages)
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11 Propagation Techniques and Rootstocks
V.K. Wali, Amit Jasrotia and Deep Ji Bhat

INTRODUCTION Plant propagation involves three main aspects: knowledge of mechanical manipulations and technical skills which constitutes the art of propagation; knowledge of plant growth and structures which constitutes science of propagation and knowledge of different kinds of plants and their methods of propagation. The basic objective of plant propagation is to increase the number of desirable types and to preserve the essential characteristics of the plant. Generally, sexual propagation or the seed propagation is used to raise the seedling rootstocks on which to graft or bud the desirable types. The clonal rootstocks are multiplied through vegetative means- layering, cutting etc. Various sexual and asexual methods such as use of seeds, apomicts, specialised plant parts, cuttings, layers, grafts and buds are employed to multiply plants of different fruit crops. In this chapter, the techniques used for raising rootstocks and multiplying the desirable types of different fruits have been discussed.

239 - 282 (44 Pages)
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12 Tissue Culture and Biotechnology
P. Mohanpuria

INTRODUCTION Plant tissue culture is basically in vitro culturing of any type of explants such as leaf, root, bud and stem or even single cell except the seed or embryo on a suitable culture medium under controlled environmental conditions. Plant tissue culture employs the totipotency of plant cells to produce whole plant. The term totipotency was coined by German plant physiologist, Haberlandt (1902) who is known as father of tissue culture techniques. Definition of Micropropagation Micropropagation is one of the best and most successful examples of commercial application of tissue culture techniques. The concept of micropropagation was first presented to the scientific community in 1960 by Morel, who produced the virus-free cymbidium through meristem culture. It entails in vitro propagation of plants starting with very small plant parts (0.2-10mm) grown aseptically, followed by their establishment in soil under green house conditions. It is the art and science of plant multiplication in vitro. This technique has been standardized and commercialized for various fruits and vegetable crops.

283 - 298 (16 Pages)
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13 Seed Germination and Dormancy
D.P. Sharma and Rimpika

SEED GERMINATION Germination is the growth of a plant contained within a seed; it results in the formation of the seedling, it is also the process of reactivation of metabolic machinery of the seed resulting in the emergence of radicle and plumule. The seed of a vascular plant is a small package produced in a fruit or cone after the union of male and female reproductive cells. All fully developed seeds contain an embryo and, in most plant species some store of food reserves, wrapped in a seed coat. Some plants produce varying numbers of seeds that lack embryos; these are called empty seeds and never germinate. Dormant seeds are ripe seeds that do not germinate because they are subject to external environmental conditions that prevent the initiation of metabolic processes and cell growth. Under proper conditions, the seed begins to germinate and the embryonic tissues resume growth, developing towards a seedling.

299 - 316 (18 Pages)
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14 Propagation Media, Mixtures and Containers
S.S. Gill and J.S. Bal

INTRODUCTION For survival of young seedlings and rooting of cuttings it is essential that they maintain a healthy water and air balance especially to make up the water lost in transpiration. Water stress within the cuttings hinders metabolic activities and cell regeneration and consequently initiation of roots. So medium should be such that it provides adequate water required for rooting and growth. Also these substrates must provide initial nutrients necessary for plant growth. These should also contain micro-organisms that seedlings may need.

317 - 326 (10 Pages)
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15 Care of Propagated Plants
J.S. Bal

INTRODUCTION The initial care of young seedlings and propagated plants is very necessary and important. Efforts should be made in such a way that the young plants can be propagated and grown to a saleable size with no insect-pests and diseases attack and nutrient deficiency. The supply of healthy plant material to the growers helps in good reputation of a nursery as well as to make fruit crops more profitable. Sometimes young nursery plants suffers from various problems like attack of insect-pests and diseases, nutrient deficiency, scanty or excessive moisture and stagnation of excess or rain water in the field. The young seedlings/plants require light and frequent irrigation and need special care to make them grow well and to save them from adverse weather conditions. They must be protected from intense heat and cold. The young nursery plants growing on light or sandy soils can exhibit deficiency symptoms of macro and micro elements. Such nutrient deficiencies can easily be corrected by foliar or soil application of desired nutrient.

327 - 336 (10 Pages)
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16 Protected Cultivation
K.S. Gill and Rachna Arora

INTRODUCTION With the change in world scenario from plentiful resources to limited with population increasing geometrically, shrinking land and climate change, the pressure on agriculture is mounting continuously. Meeting the nutritional requirements of population by optimum supply of food is the pre-requisite for sustainability of life under such conditions. Rapid urbanization is causing scarcity of cultivable land. Therefore, the productivity per unit area of the crops needs to be increased manifold. Horticulture, in general, has attained a pride status in the field of modern agriculture. However, radical changes are expected in horticultural practices in near future as the situation in terms of area as well as production is not as comfortable as the food grain production.

337 - 356 (20 Pages)
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17 Fruit Maturity and Ripening
K.S. Thakur and Satish Sharma

INTRODUCTION Fruits of commercial importance comprise various combinations of tissues that may include an expanded ovary, the seed and other plant parts such as the receptacle (apple, strawberry), bract and peduncle (pineapple). They may develop from a single ovary of a flower as in simple fruits (apple, banana, mango, peach, plum, tomato etc.), number of ovaries of a single flower as in aggregate fruits (strawberry) or from a number of ovaries of different flowers as in compound fruits (pineapple). They are derived from members of a wide range of families of both monocotyledonous and dicotyledonous plants. Inspite the huge diversity in origin, structure, composition and climate adaptabilities that exists among different fruits, there is considerable similarity in the pattern of maturation and ripening that occur in different fruits.

357 - 376 (20 Pages)
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18 Fruit Grading and Packaging
B.V.C. Mahajan and J.S.Bal

Grading is defined as sorting of fruits into different grades according to the size, shape, colour, and volume to fetch high price in market. Grading of fruits after harvesting is an essential step in post-harvest management. Grading of fruits is done on the basis of physical characteristics like weight, size, colour, shape, specific gravity and freedom from diseases. The known methods of grading of fruits and vegetables are manual grading and size grading. Sizing produce is usually a part of grading and is optional for direct marketers, but may be worthwhile if certain size grades receive a higher price than others. Round produce units can be easily graded by sizing rings. Several types of mechanical sizers are available for small-scale operations. Sorting by maturity can maximize the market value of crops such as stone fruits and mangoes .The grades of different fruits suggested by Directorate of Marketing and Inspection (DMI) are given in Table 1.

375 - 390 (16 Pages)
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19 Treatments for Enhancing Shelf Life
B.V.C. Mahajan

In post-harvest management of horticultural crops, post-harvest treatments play an important role in maintaining the quality and enhancing the shelf life. There are number of treatments viz non-chemical, chemical and biological treatments which are being used commercially depending on the requirement of trade. Fresh fruits are living tissues subject to continuous change after harvest. Some changes are desirable from consumer point of view but most are not. Post-harvest changes in fresh fruit cannot be stopped, but these can be slowed down within certain limits to enhance the shelf life of fruits   1. Low Temperature Treatment Pre-cooling: Pre-cooling refers to the rapid removal of field heat from freshly harvested fruits in order to slow ripening and reduce the deterioration prior to storage and transportation. The major effect of pre-cooling consists in reducing respiration rate, retarding the growth of decay organisms and reduces wilting and shrivelling, since transpiration and evaporation occur more slowly at low temperature. The harvesting of many perishable crops is done at evening or early morning to avoid excessive field heat.

391 - 400 (10 Pages)
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20 Storage Techniques for Fruits
B.V.C. Mahajan

INTRODUCTION   Once a crop is harvested, it is almost impossible to improve its quality. Therefore, proper storage conditions—temperature and humidity—are needed to lengthen storage life and maintain quality once the crop has been cooled to the optimum storage temperature. In modern times, the storage of perishables has become more sophisticated because of the demand for a wide range of fresh fruits and vegetables at all the times of the year and because of need to spread peaks of production over longer periods to maximize profit and reduce waste. But in our conditions, storage of fruits and vegetables is practiced to avoid the low prices during the glut season in anticipation that prices will increase during the lean period or off-season. Certain crops like potatoes and apples can be stored for long period whereas for the crops peach and plum, the storage period is very short. However, for both long-term as well as short-term storage, high level of technical know-how about the crop is necessary for successful storage. There are a few important factors, which need to be taken into account before storage of the produce.

401 - 408 (8 Pages)
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21 Post-harvest Transportation of Fruits
Jagmohan Singh

INTRODUCTION As per National Horticulture Database published by National Horticulture Board, during 2014-15 India produced 89.15 million metric tonnes of fruits. This value however differs from the consumption value depending upon the post harvest losses, storage losses or transportation losses. Transportation and distribution of fruits being the most important factor, plays a key role in determining the net income from horticulture trade. It is an essential link in the modern food chain and exists as complex matrix where not only fresh goods finished products are transported but there is also transportation of bulk raw materials. Locally grown produce may be transported directly from farms to retail outlet. For local market, the produce is brought by bullock cart, tractor, trollies. Mainly the long distance transportation is by trucks, rails which is costly. In India the transportation by Railway is much less than the other means. The road transport is 3-4 times more expensive than rail, yet it is preferred for shipment of fresh fruits simply because of the faster movement of perishable commodities.

409 - 418 (10 Pages)
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22 End Pages

Colour Plates Chapter 2: Planning and Planting of an Orchard

 
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