Agrigenomics Market by Application (Crops and Livestock), Sequencer Type (Sanger Sequencing, Illumina HiSeq Family, PacBio Sequencer, SOLiD Sequencer), Objectives, and Region (North America, Europe, APAC, South America,Row) - Forecast year 2026

Abstract
The global agrigenomics market is estimated to be USD 3.3 billion in 2021 and is projected to reach USD 5.3 billion by 2026, at a CAGR of 9.7% from 2021 to 2026. The agrigenomics market is increasingly driven by technological advancements in systems & services of applied genomics, demonstrable increase in the efficiency and productivity of current agricultural practices, greater availability of reference genomes, and utilization of genotyping for genome-wide association studies, genomic prediction, and cultivation of gene-edited elite cultivars with desirable traits, such as high yield, stress tolerance and pest resistance along with high milk and meat yields, better health, and increased productivity in case of livestock. The large-scale genetic characterization in some of the commercially relevant crops has provided a framework that is applicable to other crops as well. With the mounting dual challenges of population growth and climate change, new strategies, including genetic advancements, must be available to producers to address concerns of yield optimization and food security.
“The market for livestock is projected to grow at the highest CAGR between 2021 and 2026.”
The livestock segment is projected to gain further growth traction during the forecast period owing to rapid adoption and commercialization of the novel genotyping platforms and related techniques such as marker-based selection (MAS) and marker-based breeding (MAB) to identify complex inheritance traits. The global demand for animal-based food products is expected to increase by 70% by 2050. The implementation of advanced genetic technologies in livestock production will ensure minimal environmental impact with optimized animal health & fertility.
A shift from traditional animal breeding to genomic selection is estimated with the introduction of genome analysis tools. The presence of next-generation sequencers has enabled researchers to quickly and effectively determine the single nucleotide polymorphisms associated with commercially important phenotypic traits and estimate the breeding value (EBV) at an earlier stage of young animals.


“The Marker-assisted selection by objective is projected to grow at the highest CAGR between 2021 and 2026.”
The Marker-assisted selection is expected to grow at the highest rate during the forecast period as it is cheaper and faster than any conventional phenotypic assays, depending on the trait. Marker-assisted selection or marker-aided selection (MAS) is an indirect selection process where a trait of interest is selected based on a marker (morphological, biochemical, or DNA/RNA variation) linked to a trait of interest (e.g., productivity, disease resistance, abiotic stress tolerance, and quality), rather than on the trait itself. This process has been extensively researched and proposed for plant and animal breeding. It uses conventional breeding approaches and does not involve transgenic approaches. Marker-assisted breeding uses DNA markers associated with desirable traits to select a plant or animal for inclusion in a breeding program early in its development. This approach dramatically reduces the time required to identify varieties or breeds which express the desired trait in a breeding program. The marker may be the sequence of the gene that determines the trait, but in most cases, it is a DNA sequence which is located very close to the gene of interest and is therefore always inherited with the trait. Desirable traits include disease resistance, salt tolerance, and high yield. Hence, DNA markers have enormous potential to improve the efficiency and precision of conventional plant breeding via marker-assisted selection.



“Illumina HiSeq Family by sequencer type is projected to grow at the highest CAGR between 2021 and 2026.”
The Illumina Hi Seq Family held the largest share in 2020 and is also expected to grow at the highest rate as it is an efficient ultra-high-throughput sequencing system that supports the broadest range of applications and study sizes. Based on sequencer type, Illumina Hi Seq Family led the agrigenomics market, exhibiting a significant share of in 2020, registering a value of USD 1,393.2 million. It is also the most widely utilized next-generation sequencing (NGS) technology owing to its high throughput and exceptional operational performance. It also exhibits greater sensitivity to detect low-frequency gene variants. PacBio and solid sequencers are also expected to exhibit decent growth rates during the forecast period. Sequencing by ligation (SOLiD) utilizes DNA ligase, an enzyme widely used in biotechnology for its ability to ligate double-stranded DNA strands – owing to its two-base sequencing method, it is the most accurate and economical second-generation sequencing platform.


“The agrigenomics market in the Asia Pacific region is projected to grow at the highest CAGR during the forecast period. “
The Asia Pacific region is projected to be the fastest-growing in the global agrigenomics market at a CAGR of 10.6%. The growth in the region is projected due to the progress in research and development activities in India, China, and Japan. The availability of high-quality reference genome sequences for a majority of crops has strengthened the foundation of functional genomics in the region. Asia Pacific is the most populous continent with growing concerns for food and nutritional security. The region also produces important food crops such as rice, wheat, barley, chickpea, and pigeon pea. The agrigenomics solutions adopted in a full-fledged manner across the key markets of the region can emerge as a strong tool in the attainment of zero hunger as a sustainable development goal.


In the process of determining and verifying the market size for several segments and sub-segments gathered through secondary research, extensive primary interviews have been conducted with the key experts.

The breakup of the profiles of primary participants is as follows:
•By Manufacturers: Tier 1 – 20%, Tier 2 – 50%, and Tier 3 – 30%
•By Designation: CXOs – 31%, Managers – 24%, Executives – 45%
•By Geography: Europe – 29%, Asia Pacific – 32%, North America – 24%, South America – 12%, and RoW – 3%
The key players in this market include Thermo Fisher Scientific, Inc. (US), Agilent Technologies, Inc. (US), Illumina, Inc. (US), Eurofins Scientific SE (Luxembourg), and LGC Limited (UK). Some of these players–Thermo Fisher Scientific, Inc. (US) and Illumina, Inc. (US)–are both, technology and service providers who have streamlined their supply chain in providing agrigenomics services.


Research Coverage
The report segments the agrigenomics market based on type, species, application, and region. In terms of insights, this report has focused on various levels of analyses—competitive landscape, end-use analysis, and company profiles—which together comprise and discuss views on the emerging & high-growth segments of the agrigenomics , high-growth regions, countries, government initiatives, drivers, restraints, opportunities, and challenges.
Reasons to Buy the Report:
•Illustrative segmentation, analysis, and forecast pertaining to the agrigenomics market based on type, species, application, and geography have been conducted to provide an overall view of the agrigenomics market
•Major drivers, restraints, and opportunities for the agrigenomics market have been detailed in this report.

Content
1INTRODUCTION27
1.1OBJECTIVES OF THE STUDY27
1.2MARKET DEFINITION27
1.3MARKET SCOPE28
1.3.1MARKETS COVERED28
FIGURE 1MARKET SEGMENTATION: AGRIGENOMICS MARKET28
1.3.2INCLUSIONS AND EXCLUSIONS29
1.3.3GEOGRAPHIC SCOPE29
1.4PERIODIZATION CONSIDERED29
1.5CURRENCY CONSIDERED30
TABLE 1USD EXCHANGE RATES CONSIDERED FOR THE STUDY, 2017–202030
1.6STAKEHOLDERS30
1.7SUMMARY OF CHANGES31
2RESEARCH METHODOLOGY32
2.1RESEARCH DATA32
FIGURE 2RESEARCH DESIGN: AGRIGENOMICS MARKET32
2.1.1SECONDARY DATA33
2.1.1.1Key data from secondary sources33
2.1.2PRIMARY DATA34
2.1.2.1Key data from primary sources34
2.1.2.2Key industry insights35
2.1.2.3Breakdown of primary interviews35
FIGURE 3BREAKDOWN OF PRIMARY INTERVIEWS: BY COMPANY TYPE, DESIGNATION, AND REGION35
2.2FACTOR ANALYSIS36
2.2.1INTRODUCTION36
2.2.2DEMAND-SIDE ANALYSIS36
2.2.2.1Finite land resources under agricultural cultivation36
FIGURE 4GLOBAL AREA UNDER AGRICULTURAL PRACTICE,
2015–2018 (MILLION HECTARES)37
2.2.2.2Strong need to reduce the dependence on agrochemicals37
2.2.3SUPPLY-SIDE ANALYSIS37
2.2.3.1Declining price rates for agrigenomics testing services38
FIGURE 5DECADAL DECLINE IN THE GENOMIC TESTING COSTS,
2004–2014 (USD THOUSAND)38
2.2.3.2Growing regulatory & environmental concerns38
 
2.3MARKET SIZE ESTIMATION39
2.3.1SUPPLY-SIDE AND DEMAND-SIDE ASPECTS OF MARKET SIZING40
FIGURE 6MARKET ESTIMATION APPROACHES BASED ON SUPPLY AND
DEMAND ANALYSIS40
2.3.2BOTTOM-UP APPROACH40
2.3.3TOP-DOWN APPROACH41
2.4MARKET BREAKDOWN & DATA TRIANGULATION42
FIGURE 7DATA TRIANGULATION METHODOLOGY42
2.5RESEARCH ASSUMPTIONS & LIMITATIONS43
2.5.1ASSUMPTIONS43
FIGURE 8ASSUMPTIONS OF THE STUDY43
2.6RESEARCH LIMITATIONS & ASSOCIATED RISKS44
2.7MARKET SCENARIOS CONSIDERED FOR THE IMPACT OF COVID-1945
2.7.1SCENARIO-BASED MODELLING45
3EXECUTIVE SUMMARY46
FIGURE 9AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021 VS. 2026 (USD MILLION)47
FIGURE 10AGRIGENOMICS MARKET SHARE, BY APPLICATION, 2021 VS. 202648
FIGURE 11AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE,
2021 VS. 2026 (USD MILLION)49
FIGURE 12AGRIGENOMICS MARKET SHARE, BY REGION, 202050
4PREMIUM INSIGHTS52
4.1BRIEF OVERVIEW OF THE AGRIGENOMICS MARKET52
FIGURE 13INCREASE IN APPLICATION OF GENOMICS IN AGRICULTURE TO IMPROVE THE PRODUCTIVITY AND SUSTAINABILITY IN CROP AND LIVESTOCK PRODUCTION TO DRIVE THE GROWTH OF THE AGRIGENOMICS MARKET52
4.2AGRIGENOMICS, BY SEQUENCER TYPE, 2021 VS. 2026 (USD MILLION)53
FIGURE 14ILLUMINA HI SEQ FAMILY TO ACCOUNT FOR THE LARGEST SHARE53
4.3AGRIGENOMICS MARKET, BY APPLICATION AND REGION53
FIGURE 15NORTH AMERICA DOMINATED THE MARKET ACROSS ALL APPLICATIONS
IN 202053
4.4AGRIGENOMICS MARKET, BY OBJECTIVE54
FIGURE 16MARKER-ASSISTED SELECTION SEGMENT TO DOMINATE THE AGRIGENOMICS MARKET54
4.5NORTH AMERICA: AGRIGENOMICS MARKET, BY APPLICATION AND COUNTRY, 202055
FIGURE 17CROPS SEGMENT ACCOUNTED FOR A LARGER SHARE, BY APPLICATION,
IN 202055
4.6COVID-19 IMPACT ON THE AGRIGENOMICS MARKET55
FIGURE 18GROWTH IN 2020 DECLINED IN THE POST-COVID-19 SCENARIO COMPARED TO THE PRE-COVID-19 SCENARIO55
 
5MARKET OVERVIEW56
5.1INTRODUCTION56
FIGURE 19DISTRIBUTION OF MARKET-ORIENTED GENOMIC APPLICATIONS IN AGRICULTURE, 1996-201957
5.2MARKET DYNAMICS57
FIGURE 20AGRIGENOMICS MARKET DYNAMICS57
5.2.1DRIVERS58
5.2.1.1Advanced tools and techniques of genome analysis are at the forefront of the agrigenomics growth momentum58
TABLE 2KEY TECHNOLOGIES FOR FUNCTIONAL GENOME ANALYSIS58
5.2.1.2Robust growth in grants & funding initiatives propelling agrigenomics growth59
5.2.2RESTRAINTS60
5.2.2.1Sub-optimized multidisciplinary research approaches and lackluster infrastructure support60
5.2.2.2Public perceptions and regulatory barriers for genome editing in agriculture60
TABLE 3REGULATORY STATUS FOR GENOME-EDITED CROPS IN KEY GEOGRAPHIES60
5.2.3OPPORTUNITIES61
5.2.3.1Agrigenomics for food & nutritional security and food safety
& authenticity61
5.2.3.2Rising opportunities for DNA sequencing in crops and livestock61
5.2.4CHALLENGES62
5.2.4.1Technological constraints of applied genetics in agriculture62
5.3IMPACT OF COVID-19 ON MARKET DYNAMICS62
5.3.1COVID-19 NEGATIVELY IMPACTED THE SUPPLY CHAIN AND REVENUE STREAMS OF THE AGRIGENOMICS MARKET62
6INDUSTRY TRENDS63
6.1INTRODUCTION63
6.2VALUE CHAIN ANALYSIS63
FIGURE 21VALUE CHAIN ANALYSIS63
6.3TECHNOLOGY ANALYSIS64
6.3.1POLYMERASE CHAIN REACTION (PCR)64
6.3.2QUANTITATIVE PCR64
6.3.3SEQSNP64
6.3.4AGRENSEQ65
6.3.5MICROARRAY TECHNOLOGY65
6.4SUPPLY CHAIN ANALYSIS65
FIGURE 22SUPPLY CHAIN ANALYSIS: AGRIGENOMICS MARKET66
6.5ECOSYSTEM & MARKET MAP66
FIGURE 23MARKET ECOSYSTEM66
FIGURE 24MARKET MAP67
6.5.1UPSTREAM67
6.5.2DOWNSTREAM67
6.5.2.1Regulatory bodies67
6.6PORTER’S FIVE FORCES ANALYSIS68
TABLE 4AGRIGENOMICS MARKET: PORTER’S FIVE FORCES ANALYSIS68
6.6.1THREAT OF NEW ENTRANTS69
6.6.2THREAT OF SUBSTITUTES69
6.6.3BARGAINING POWER OF SUPPLIERS69
6.6.4BARGAINING POWER OF BUYERS70
6.6.5DEGREE OF COMPETITION70
6.7YC-YCC SHIFT70
FIGURE 25YC & YCC SHIFT FOR THE AGRIGENOMICS MARKET70
6.8PATENT ANALYSIS71
FIGURE 26NUMBER OF PATENTS GRANTED FOR AGRIGENOMICS, 2017–202171
FIGURE 27REGIONAL ANALYSIS OF PATENTS GRANTED IN THE AGRIGENOMICS MARKET, 2017–202171
TABLE 5LIST OF A FEW PATENTS IN THE AGRIGENOMICS MARKET72
6.9CASE STUDIES73
6.9.1CASE STUDY 173
TABLE 6DISCOVERY AND DEVELOPMENT OF EXOME-BASED, CO-DOMINANT SINGLE NUCLEOTIDE POLYMORPHISM MARKERS IN HEXAPLOID WHEAT73
6.9.2CASE STUDY 273
TABLE 7HY-LINE INTERNATIONAL USES GENETIC RESEARCH AND TESTING TO COMBAT COMMERCIAL EGG-LAYING CHALLENGES73
7REGULATORY FRAMEWORK74
7.1INTRODUCTION74
7.1.1INTERNATIONAL ORGANIZATION FOR STANDARDIZATION (ISO)74
7.1.2WORLD ORGANIZATION FOR ANIMAL HEALTH (OIE)74
7.2NORTH AMERICA74
7.2.1US74
7.2.1.1US regulations on genetically modified crops74
7.2.2CANADA75
7.2.3MEXICO76
7.3EUROPE76
7.3.1GERMANY77
7.3.2UK77
7.3.3SPAIN78
7.4ASIA PACIFIC78
7.4.1CHINA78
7.4.2INDIA78
7.4.2.1Department of Animal Husbandry, Dairying & Fisheries (DADF)78
7.4.2.2Department of Biotechnology78
 
7.4.3JAPAN79
7.4.4ISRAEL79
7.4.5AUSTRALIA79
7.4.6NEW ZEALAND79
7.5LATIN AMERICA80
8AGRIGENOMICS MARKET, BY APPLICATION81
8.1INTRODUCTION82
FIGURE 28AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021 VS. 2026 (USD MILLION)82
TABLE 8AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2016–2020 (USD MILLION)83
TABLE 9AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2021–2026 (USD MILLION)83
8.2COVID-19 IMPACT ON THE AGRIGENOMICS MARKET, BY APPLICATION (2018-2021)83
8.2.1OPTIMISTIC SCENARIO83
TABLE 10OPTIMISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2018–2021 (USD MILLION)83
8.2.2PESSIMISTIC SCENARIO84
TABLE 11PESSIMISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2018–2021 (USD MILLION)84
8.2.3REALISTIC SCENARIO84
TABLE 12REALISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2018–2021 (USD MILLION)84
8.3CROPS84
8.3.1AVAILABILITY OF GENOMIC TOOLS AND RESOURCES LEADING TO A NEW REVOLUTION OF CROP BREEDING, AS THEY FACILITATE THE COMBINATION OF COMPLEX TRAITS84
TABLE 13AGRIGENOMICS: CROPS MARKET SIZE, BY REGION,
2016–2020 (USD MILLION)85
TABLE 14AGRIGENOMICS: CROPS MARKET SIZE, BY REGION,
2021–2026 (USD MILLION)85
8.4LIVESTOCK86
8.4.1GENOMIC SELECTION IS THE FUTURE OF LIVESTOCK BREEDING COMPANIES AS IT IMPROVES THE GENETIC GAIN BY DECREASING GENETIC INTERVAL
AND IMPROVING RELIABILITY86
TABLE 15AGRIGENOMICS: LIVESTOCK MARKET SIZE, BY REGION,
2016–2020 (USD MILLION)86
TABLE 16AGRIGENOMICS: LIVESTOCK MARKET SIZE, BY REGION,
2021–2026 (USD MILLION)86
9AGRIGENOMICS MARKET, BY OBJECTIVE87
9.1INTRODUCTION88
FIGURE 29AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021 VS. 2026 (USD MILLION)88
TABLE 17AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2016–2020 (USD MILLION)88
TABLE 18AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2021–2026 (USD MILLION)89
 
9.2COVID-19 IMPACT ON THE AGRIGENOMICS MARKET, BY OBJECTIVE (2018-2021)89
9.2.1OPTIMISTIC SCENARIO89
TABLE 19OPTIMISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2018–2021 (USD MILLION)89
9.2.2PESSIMISTIC SCENARIO90
TABLE 20PESSIMISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2018–2021 (USD MILLION)90
9.2.3REALISTIC SCENARIO90
TABLE 21REALISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2018–2021 (USD MILLION)90
9.3DNA EXTRACTION & PURIFICATION91
9.3.1DNA EXTRACTION IS INTEGRAL TO THE PROCESS OF GENETIC MODIFICATION OF PLANTS91
TABLE 22AGRIGENOMICS: DNA EXTRACTION & PURIFICATION MARKET SIZE,
BY REGION, 2016–2020 (USD MILLION)91
TABLE 23AGRIGENOMICS: DNA EXTRACTION & PURIFICATION MARKET SIZE,
BY REGION, 2021–2026 (USD MILLION)92
9.4RNA & DNA SEQUENCING92
9.4.1RNA & DNA SEQUENCING HAS BEEN INCREASINGLY CONSIDERED A VERY POPULAR TECHNIQUE THAT UNRAVELS MANY IMPORTANT ASPECTS RELATED TO THEIR BIOLOGICAL ROLES92
TABLE 24AGRIGENOMICS: RNA & DNA SEQUENCING MARKET SIZE, BY REGION, 2016–2020 (USD MILLION)93
TABLE 25AGRIGENOMICS: DNA & RNA SEQUENCING MARKET SIZE, BY REGION, 2021–2026 (USD MILLION)93
9.5GENOTYPING93
9.5.1BECAUSE OF THE HIGH PRICE TAG, WHICH COMPRISES THE BREEDING BUDGETS, THERE IS A PRESSING NEED TO OPTIMIZE GENOTYPING PROCEDURES IN AGRICULTURE93
TABLE 26AGRIGENOMICS: GENOTYPING MARKET SIZE, BY REGION,
2016–2020 (USD MILLION)94
TABLE 27AGRIGENOMICS: GENOTYPING MARKET SIZE, BY REGION,
2021–2026 (USD MILLION)94
9.6GENE EXPRESSION PROFILING95
9.6.1STUDYING THE GENE EXPRESSION OF VARIOUS CROPS UNDER STRESS HAS LED TO THE DEVELOPMENT OF HARDIER AND DROUGHT-TOLERANT STRAINS THAT PRODUCE HIGHER YIELDS95
TABLE 28AGRIGENOMICS: GENE EXPRESSION PROFILING MARKET SIZE, BY REGION, 2016–2020 (USD MILLION)95
TABLE 29AGRIGENOMICS: GENE EXPRESSION PROFILING MARKET SIZE, BY REGION, 2021–2026 (USD MILLION)95
9.7MARKER-ASSISTED SELECTION96
9.7.1THIS TECHNIQUE IS USED IN PLANT AND ANIMAL BREEDING TO SELECT QUALITIES THAT ARE DESIRABLE FOR FARMERS AND CONSUMERS96
TABLE 30AGRIGENOMICS: MARKER-ASSISTED SELECTION MARKET SIZE, BY REGION, 2016–2020 (USD MILLION)96
TABLE 31AGRIGENOMICS: MARKER-ASSISTED SELECTION MARKET SIZE, BY REGION, 2021–2026 (USD MILLION)96
9.8GMO/TRAIT PURITY TESTING97
9.8.1TO ENSURE REGULATORY COMPLIANCES, GENOMICS COMPANIES MAY FIND IT NECESSARY TO TEST GMOS PRIOR TO IMPORT/EXPORT97
TABLE 32AGRIGENOMICS: GMO/TRAIT PURITY TESTING MARKET SIZE, BY REGION, 2016–2020 (USD MILLION)97
TABLE 33AGRIGENOMICS: GMO/TRAIT PURITY TESTING MARKET SIZE, BY REGION, 2021–2026 (USD MILLION)97
9.9OTHER OBJECTIVES98
TABLE 34AGRIGENOMICS: OTHER OBJECTIVES MARKET SIZE, BY REGION,
2016–2020 (USD MILLION)98
TABLE 35AGRIGENOMICS: OTHER OBJECTIVES MARKET SIZE, BY REGION,
2021–2026 (USD MILLION)99
10AGRIGENOMICS MARKET, BY SEQUENCER TYPE100
10.1INTRODUCTION101
FIGURE 30AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE,
2021 VS. 2026 (USD MILLION)101
TABLE 36AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE,
2016–2020 (USD MILLION)102
TABLE 37AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE,
2021–2026 (USD MILLION)102
10.2COVID-19 IMPACT ON THE AGRIGENOMICS MARKET,
BY SEQUENCER TYPE (2018-2021)103
10.2.1OPTIMISTIC SCENARIO103
TABLE 38OPTIMISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2018–2021 (USD MILLION)103
10.2.2PESSIMISTIC SCENARIO103
TABLE 39PESSIMISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2018–2021 (USD MILLION)103
10.2.3REALISTIC SCENARIO104
TABLE 40REALISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2018–2021 (USD MILLION)104
10.3SANGAR SEQUENCING104
10.3.1SANGER SEQUENCING IS NOW EXTENSIVELY USED FOR THE INITIAL SEQUENCING OF A DNA MOLECULE TO OBTAIN THE PRIMARY SEQUENCE DATA FOR AN ORGANISM OR GENE104
TABLE 41SANGER SEQUENCING MARKET SIZE, BY REGION,
2016–2020 (USD MILLION)105
TABLE 42SANGER SEQUENCING MARKET SIZE, BY REGION,
2021–2026 (USD MILLION)105
10.4ILLUMINA HISEQ FAMILY105
10.4.1HISEQ SYSTEMS LEVERAGE INNOVATIVE PATTERNED FLOW CELL TECHNOLOGY TO PROVIDE RAPID, HIGH-PERFORMANCE SEQUENCING105
TABLE 43ILLUMINA HISEQ FAMILY MARKET SIZE, BY REGION,
2016–2020 (USD MILLION)106
TABLE 44ILLUMINA HI SEQ FAMILY MARKET SIZE, BY REGION,
2021–2026 (USD MILLION)106
 
10.5PACBIO SEQUENCERS107
10.5.1PACBIO’S SMRT (SINGLE MOLECULE REAL-TIME) SEQUENCING IS ONE OF THE MOST COMMONLY USED THIRD-GENERATION SEQUENCING TECHNOLOGIES107
TABLE 45PACBIO SEQUENCERS MARKET SIZE, BY REGION,
2016–2020 (USD MILLION)107
TABLE 46PACBIO SEQUENCERS MARKET SIZE, BY REGION,
2021–2026 (USD MILLION)107
10.6SOLID SEQUENCERS108
10.6.1PRINCIPLE OF SOLID SEQUENCING RELIES ON THE ABILITY OF DNA LIGASE TO DETECT AND INCORPORATE BASES IN A VERY SPECIFIC MANNER108
TABLE 47SOLID SEQUENCERS MARKET SIZE, BY REGION, 2016–2020 (USD MILLION)108
TABLE 48SOLID SEQUENCERS MARKET SIZE, BY REGION, 2021–2026 (USD MILLION)108
10.7OTHER SEQUENCER TYPES109
TABLE 49OTHER SEQUENCER TYPES MARKET SIZE, BY REGION,
2016–2020 (USD MILLION)109
TABLE 50OTHER SEQUENCER TYPES MARKET SIZE, BY REGION,
2021–2026 (USD MILLION)109
11AGRIGENOMICS MARKET, BY REGION110
11.1INTRODUCTION111
FIGURE 31AGRIGENOMICS MARKET, 2021-2026111
TABLE 51AGRIGENOMICS MARKET SIZE, BY REGION, 2016–2020 (USD MILLION)112
TABLE 52AGRIGENOMICS MARKET SIZE, BY REGION, 2021–2026 (USD MILLION)112
11.2COVID-19 IMPACT ON THE AGRIGENOMICS MARKET, BY REGION (2018-2021)112
11.2.1OPTIMISTIC SCENARIO112
TABLE 53OPTIMISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY REGION, 2018–2021 (USD MILLION)112
11.2.2PESSIMISTIC SCENARIO113
TABLE 54PESSIMISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY REGION, 2018–2021 (USD MILLION)113
11.2.3REALISTIC SCENARIO113
TABLE 55REALISTIC SCENARIO: COVID-19 IMPACT ON THE AGRIGENOMICS MARKET SIZE, BY REGION, 2018–2021 (USD MILLION)113
11.3NORTH AMERICA114
FIGURE 32US DOMINATED THE NORTH AMERICAN AGRIGENOMICS MARKET114
TABLE 56NORTH AMERICA: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2016–2020 (USD MILLION)115
TABLE 57NORTH AMERICA: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2021–2026 (USD MILLION)115
TABLE 58NORTH AMERICA: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2016–2020 (USD MILLION)115
TABLE 59NORTH AMERICA: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2021–2026 (USD MILLION)116
TABLE 60NORTH AMERICA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)116
TABLE 61NORTH AMERICA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)116
TABLE 62NORTH AMERICA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)117
TABLE 63NORTH AMERICA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)117
11.3.1US118
11.3.1.1Presence of key agrigenomics companies focusing on innovation has led to the increase in usage of genomics services in the country118
TABLE 64US: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)118
TABLE 65US: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)118
TABLE 66US: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)119
TABLE 67US: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)119
11.3.2CANADA120
11.3.2.1Rising adoption of genomics for disease-resistant crops and livestock has provided a momentum to agrigenomics in Canada120
TABLE 68CANADA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)120
TABLE 69CANADA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)120
TABLE 70CANADA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)121
TABLE 71CANADA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)121
11.3.3MEXICO121
11.3.3.1Developments in the field of GM technology to drive the agrigenomics market in Mexico121
TABLE 72MEXICO: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)122
TABLE 73MEXICO: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)122
TABLE 74MEXICO: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)122
TABLE 75MEXICO: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)123
11.4EUROPE123
FIGURE 33EUROPEAN AGRIGENOMICS MARKET124
TABLE 76EUROPE: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2016–2020 (USD MILLION)125
TABLE 77EUROPE: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2021–2026 (USD MILLION)125
TABLE 78EUROPE: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE,
2016–2020 (USD MILLION)125
TABLE 79EUROPE: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE,
2021–2026 (USD MILLION)126
TABLE 80EUROPE: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)126
TABLE 81EUROPE: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)126
TABLE 82EUROPE: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)127
TABLE 83EUROPE: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)127
11.4.1UK127
11.4.1.1Presence of numerous research institutes and innovative companies dedicated to agricultural sciences expected to drive the agrigenomics market in the UK127
TABLE 84UK: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)128
TABLE 85UK: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)128
TABLE 86UK: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)128
TABLE 87UK: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)129
11.4.2GERMANY129
11.4.2.1The huge number of breeding activities carried out by private plant breeding companies in the country expected to increase the adoption of agrigenomics129
TABLE 88GERMANY: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)130
TABLE 89GERMANY: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)130
TABLE 90GERMANY: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)130
TABLE 91GERMANY: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)131
11.4.3FRANCE131
11.4.3.1With the increase in demand for food, the use of genomics in agriculture in France might increase131
TABLE 92FRANCE: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)131
TABLE 93FRANCE: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)132
TABLE 94FRANCE: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)132
TABLE 95FRANCE: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)132
11.4.4ITALY133
11.4.4.1Increase in the price of feed materials has shifted focus on biotech commodities, thereby driving the market for agrigenomics133
TABLE 96ITALY: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)133
TABLE 97ITALY: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)133
TABLE 98ITALY: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)134
TABLE 99ITALY: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)134
11.4.5SPAIN134
11.4.5.1Farmers in Spain are gradually inclining toward various GE technologies to maintain a competitive edge134
TABLE 100SPAIN: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)135
TABLE 101SPAIN: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)135
TABLE 102SPAIN: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)135
TABLE 103SPAIN: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)136
11.4.6NETHERLANDS136
11.4.6.1Increased utilization of genetically engineered agricultural products for the livestock sector is driving the agrigenomics market136
TABLE 104NETHERLANDS: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)136
TABLE 105NETHERLANDS: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)137
TABLE 106NETHERLANDS: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)137
TABLE 107NETHERLANDS: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)137
11.4.7REST OF EUROPE138
TABLE 108REST OF EUROPE: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)138
TABLE 109REST OF EUROPE: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)138
TABLE 110REST OF EUROPE: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)139
TABLE 111REST OF EUROPE: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)139
11.5ASIA PACIFIC140
FIGURE 34ASIA PACIFIC AGRIGENOMICS MARKET140
TABLE 112ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2016–2020 (USD MILLION)141
TABLE 113ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2021–2026 (USD MILLION)141
TABLE 114ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE,
2016–2020 (USD MILLION)141
TABLE 115ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE,
2021–2026 (USD MILLION)142
TABLE 116ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)142
TABLE 117ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)142
TABLE 118ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)143
TABLE 119ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)143
11.5.1CHINA143
11.5.1.1Growing need for feeding the ever-growing population in China is expected to drive the agrigenomics market143
TABLE 120CHINA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)144
TABLE 121CHINA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)144
TABLE 122CHINA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)144
TABLE 123CHINA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)145
11.5.2INDIA145
11.5.2.1With the increase in demand for food, conventional technologies are not sufficient to meet the food and nutrition requirements145
TABLE 124INDIA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)146
TABLE 125INDIA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)146
TABLE 126INDIA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)146
TABLE 127INDIA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)147
11.5.3JAPAN147
11.5.3.1Minimal ecological impact of GM crops grown in Japan over past decades has strengthened the agrigenomics market147
TABLE 128JAPAN: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)147
TABLE 129JAPAN: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)148
TABLE 130JAPAN: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)148
TABLE 131JAPAN: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)148
11.5.4SOUTH KOREA149
11.5.4.1Development of GM crops with useful traits that enhance food security to fuel the agrigenomics market in the country149
TABLE 132SOUTH KOREA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)149
TABLE 133SOUTH KOREA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)150
TABLE 134SOUTH KOREA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)150
TABLE 135SOUTH KOREA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)150
11.5.5AUSTRALIA & NEW ZEALAND151
11.5.5.1Long-term funding to research and development and approved biotech products facilitate the agrigenomics market growth151
TABLE 136AUSTRALIA & NEW ZEALAND: AGRIGENOMICS MARKET SIZE,
BY APPLICATION, 2016–2020 (USD MILLION)151
TABLE 137AUSTRALIA & NEW ZEALAND: AGRIGENOMICS MARKET SIZE,
BY APPLICATION, 2021–2026 (USD MILLION)151
TABLE 138AUSTRALIA & NEW ZEALAND: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2016–2020 (USD MILLION)152
TABLE 139AUSTRALIA & NEW ZEALAND: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2021–2026 (USD MILLION)152
11.5.6REST OF ASIA PACIFIC152
TABLE 140REST OF ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2016–2020 (USD MILLION)153
TABLE 141REST OF ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2021–2026 (USD MILLION)153
TABLE 142REST OF ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)153
TABLE 143REST OF ASIA PACIFIC: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)154
11.6SOUTH AMERICA154
TABLE 144SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2016–2020 (USD MILLION)155
TABLE 145SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2021–2026 (USD MILLION)155
TABLE 146SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2016–2020 (USD MILLION)155
TABLE 147SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2021–2026 (USD MILLION)156
TABLE 148SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)156
TABLE 149SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)156
TABLE 150SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)157
TABLE 151SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)157
11.6.1BRAZIL158
11.6.1.1The presence of large biotechnology companies and a sophisticated legal framework to drive Brazil’s agrigenomics market158
TABLE 152BRAZIL: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)158
TABLE 153BRAZIL: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)158
 
TABLE 154BRAZIL: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)159
TABLE 155BRAZIL: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)159
11.6.2ARGENTINA160
11.6.2.1The public sector facilitation in developing biotechnological ventures expected to propel the agrigenomics market160
TABLE 156ARGENTINA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)160
TABLE 157ARGENTINA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)160
TABLE 158ARGENTINA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)161
TABLE 159ARGENTINA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)161
11.6.3REST OF SOUTH AMERICA161
TABLE 160REST OF SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2016–2020 (USD MILLION)162
TABLE 161REST OF SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2021–2026 (USD MILLION)162
TABLE 162REST OF SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2016–2020 (USD MILLION)162
TABLE 163REST OF SOUTH AMERICA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2021–2026 (USD MILLION)163
11.7REST OF THE WORLD (ROW)163
TABLE 164REST OF THE WORLD: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2016–2020 (USD MILLION)163
TABLE 165REST OF THE WORLD: AGRIGENOMICS MARKET SIZE, BY COUNTRY,
2021–2026 (USD MILLION)164
TABLE 166REST OF THE WORLD: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2016–2020 (USD MILLION)164
TABLE 167REST OF THE WORLD: AGRIGENOMICS MARKET SIZE, BY SEQUENCER TYPE, 2021–2026 (USD MILLION)164
TABLE 168REST OF THE WORLD: AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2016–2020 (USD MILLION)165
TABLE 169REST OF THE WORLD: AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2021–2026 (USD MILLION)165
TABLE 170REST OF THE WORLD: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)165
TABLE 171REST OF THE WORLD: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)166
11.7.1SOUTH AFRICA166
11.7.1.1Enabling regulatory and policy-level framework for genetically engineered products has made the agrigenomics market flourish
in the country166
TABLE 172SOUTH AFRICA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)166
 
TABLE 173SOUTH AFRICA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)167
TABLE 174SOUTH AFRICA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)167
TABLE 175SOUTH AFRICA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)167
11.7.2SAUDI ARABIA168
11.7.2.1The increase in research and development in the field of genome technology to drive the market for agrigenomics168
TABLE 176SAUDI ARABIA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)168
TABLE 177SAUDI ARABIA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)168
TABLE 178SAUDI ARABIA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)169
TABLE 179SAUDI ARABIA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)169
11.7.3ISRAEL170
11.7.3.1To meet the increasing food demand, the country is expected to develop plants that can survive its harsh climate170
TABLE 180ISRAEL: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2016–2020 (USD MILLION)170
TABLE 181ISRAEL: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2021–2026 (USD MILLION)170
TABLE 182ISRAEL: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2016–2020 (USD MILLION)171
TABLE 183ISRAEL: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2021–2026 (USD MILLION)171
11.7.4UAE172
11.7.4.1Government initiatives along with increasing awareness programs and workshops on agrigenomics driving the market growth172
TABLE 184UAE: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2018–2025 (USD MILLION)172
TABLE 185UAE: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2018–2025 (USD MILLION)173
11.7.5BAHRAIN173
11.7.5.1Increasing investment in genomics driving the market growth173
TABLE 186BAHRAIN: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2018–2025 (USD MILLION)174
TABLE 187BAHRAIN: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2018–2025 (USD MILLION)174
11.7.6SAUDI ARABIA174
11.7.6.1Rich variety of diverse plant genetic resources drives the growth of the plant genomics market in the country174
TABLE 188SAUDI ARABIA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2018–2020 (USD MILLION)175
TABLE 189SAUDI ARABIA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2018–2020 (USD MILLION)175
11.7.7EGYPT176
11.7.7.1Rising risk for desertification is expected to increase the demand for agrigenomics to achieve better flora and fauna in future176
TABLE 190EGYPT: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2018–2025 (USD MILLION)176
TABLE 191EGYPT: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2018–2025 (USD MILLION)177
11.7.8KUWAIT177
11.7.8.1Increasing investment in plant genomics driving the market growth177
TABLE 192KUWAIT: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2018–2025 (USD MILLION)178
TABLE 193KUWAIT: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2018–2025 (USD MILLION)178
11.7.9OMAN179
11.7.9.1Increasing acceptance of genomics in agriculture to increase the production without compromising quality179
TABLE 194OMAN: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2018–2025 (USD MILLION)179
TABLE 195OMAN: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2018–2025 (USD MILLION)180
11.7.10QATAR180
11.7.10.1Increasing focus on the countries’ fauna getting extinct180
TABLE 196QATAR: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2018–2025 (USD MILLION)181
TABLE 197QATAR: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2018–2025 (USD MILLION)181
11.7.11REST OF MENA182
11.7.11.1Untapped opportunities in biotechnological plant genomic breeding technologies accelerating the market growth182
TABLE 198REST OF MENA: AGRIGENOMICS MARKET SIZE, BY APPLICATION,
2018–2025 (USD MILLION)183
TABLE 199REST OF MENA: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE,
2018–2025 (USD MILLION)183
11.7.12OTHER COUNTRIES IN ROW184
TABLE 200OTHER COUNTRIES IN ROW: AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2016–2020 (USD MILLION)184
TABLE 201OTHER COUNTRIES IN ROW: AGRIGENOMICS MARKET SIZE, BY APPLICATION, 2021–2026 (USD MILLION)184
TABLE 202OTHER COUNTRIES IN ROW: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2016–2020 (USD MILLION)185
TABLE 203OTHER COUNTRIES IN ROW: AGRIGENOMICS MARKET SIZE, BY OBJECTIVE, 2021–2026 (USD MILLION)185