Thumbnail Image

Acharya N G Ranga Agricultural University, Guntur

The Andhra Pradesh Agricultural University (APAU) was established on 12th June 1964 at Hyderabad. The University was formally inaugurated on 20th March 1965 by Late Shri. Lal Bahadur Shastri, the then Hon`ble Prime Minister of India. Another significant milestone was the inauguration of the building programme of the university by Late Smt. Indira Gandhi,the then Hon`ble Prime Minister of India on 23rd June 1966. The University was renamed as Acharya N. G. Ranga Agricultural University on 7th November 1996 in honour and memory of an outstanding parliamentarian Acharya Nayukulu Gogineni Ranga, who rendered remarkable selfless service for the cause of farmers and is regarded as an outstanding educationist, kisan leader and freedom fighter. HISTORICAL MILESTONE Acharya N. G. Ranga Agricultural University (ANGRAU) was established under the name of Andhra Pradesh Agricultural University (APAU) on the 12th of June 1964 through the APAU Act 1963. Later, it was renamed as Acharya N. G. Ranga Agricultural University on the 7th of November, 1996 in honour and memory of the noted Parliamentarian and Kisan Leader, Acharya N. G. Ranga. At the verge of completion of Golden Jubilee Year of the ANGRAU, it has given birth to a new State Agricultural University namely Prof. Jayashankar Telangana State Agricultural University with the bifurcation of the state of Andhra Pradesh as per the Andhra Pradesh Reorganization Act 2014. The ANGRAU at LAM, Guntur is serving the students and the farmers of 13 districts of new State of Andhra Pradesh with renewed interest and dedication. Genesis of ANGRAU in service of the farmers 1926: The Royal Commission emphasized the need for a strong research base for agricultural development in the country... 1949: The Radhakrishnan Commission (1949) on University Education led to the establishment of Rural Universities for the overall development of agriculture and rural life in the country... 1955: First Joint Indo-American Team studied the status and future needs of agricultural education in the country... 1960: Second Joint Indo-American Team (1960) headed by Dr. M. S. Randhawa, the then Vice-President of Indian Council of Agricultural Research recommended specifically the establishment of Farm Universities and spelt out the basic objectives of these Universities as Institutional Autonomy, inclusion of Agriculture, Veterinary / Animal Husbandry and Home Science, Integration of Teaching, Research and Extension... 1963: The Andhra Pradesh Agricultural University (APAU) Act enacted... June 12th 1964: Andhra Pradesh Agricultural University (APAU) was established at Hyderabad with Shri. O. Pulla Reddi, I.C.S. (Retired) was the first founder Vice-Chancellor of the University... June 1964: Re-affilitation of Colleges of Agriculture and Veterinary Science, Hyderabad (estt. in 1961, affiliated to Osmania University), Agricultural College, Bapatla (estt. in 1945, affiliated to Andhra University), Sri Venkateswara Agricultural College, Tirupati and Andhra Veterinary College, Tirupati (estt. in 1961, affiliated to Sri Venkateswara University)... 20th March 1965: Formal inauguration of APAU by Late Shri. Lal Bahadur Shastri, the then Hon`ble Prime Minister of India... 1964-66: The report of the Second National Education Commission headed by Dr. D.S. Kothari, Chairman of the University Grants Commission stressed the need for establishing at least one Agricultural University in each Indian State... 23, June 1966: Inauguration of the Administrative building of the university by Late Smt. Indira Gandhi, the then Hon`ble Prime Minister of India... July, 1966: Transfer of 41 Agricultural Research Stations, functioning under the Department of Agriculture... May, 1967: Transfer of Four Research Stations of the Animal Husbandry Department... 7th November 1996: Renaming of University as Acharya N. G. Ranga Agricultural University in honour and memory of an outstanding parliamentarian Acharya Nayukulu Gogineni Ranga... 15th July 2005: Establishment of Sri Venkateswara Veterinary University (SVVU) bifurcating ANGRAU by Act 18 of 2005... 26th June 2007: Establishment of Andhra Pradesh Horticultural University (APHU) bifurcating ANGRAU by the Act 30 of 2007... 2nd June 2014 As per the Andhra Pradesh Reorganization Act 2014, ANGRAU is now... serving the students and the farmers of 13 districts of new State of Andhra Pradesh with renewed interest and dedication...

News

https://angrau.ac.in/ANGRU/Library_Resources.aspx

Browse

Reset filters
Subject: Agronomy × End date: 2018 × Thesis Type: Ph.D ×
Reset filters

Search Results

Now showing 1 - 9 of 36
  • Thumbnail Image
    ThesisItemOpen Access
    CROP INTENSIFICATION IN RAINFED ALFISOLS
    (Acharya N G Ranga Agricultural University, Guntur, 2003) SAMPATH KUMAR, DADIGIRI; SRINIVASULU REDDY, D
    A study on "rop intensification in rainfed alfisols" was takenup at Agricultural Research Station (ANGRAU), Kadiri (Scarce rainfall zone of Andhra Pradesh), through two experiments, simultaneously for two consecutive years during 2000 and 2001, one with the aim of establishing an efficient groundnut based intercropping system and another to study the possibility and identifying efficient groundnut based sequence cropping system for enhancing the crobping intensity to the extent as maximum as possible in rainfed alfisols. I. \ In the first experiment, groundnut sbwn at 30 cm spacing was intercropped with pigeonpea, castor, sorghum, pearlmillet, sunflower, sesame, greengram and soybean at 7:1, 7:1, 6:2, 6:2, 3:1, 3:1, 3:l and 3:l row proportions, respectively. All the treatments were tried in additive series version of intercropping, keeping the population of base crop (groundnut) in all the treatments at 100 per cent of its sole crop (3, 33, 333 plants ha"), by adjusting the intra-row spacing. In second experiment, groundnut was grown during kharifin all treatments and immediately after harvesting of groundnut, seven shd duration crops viz., greengram, cowpea, sunflower, horsegram, clusterbean, pearlmillet and sorghum were raised in each treatment during rabi. Both the experiments were conducted in randomized block design and replicated thrice, Intercropping of groundnut with pearlmillet or sorghum registered the highest plant height of groundnut, during both the years of study. Groundnut + pigeonpea system resulted in the shortest groundnut plants. Number of leaves per plant, LAI, dry matter production (kg ha- ) and number of root nodules per plant of groundnut were higher with pigeonpea as intercrop, closely followed by intercropping with castor. All these growth parameters were at their lowest with pearlmillet and sorghum as intercrops. Yield attributes of groundnut viz., number of branches, flowers, pegs, total and filled pods per plant; hundred pod weight, hundred kernel weight, I shelling percentage and sound.mature kernel percentage of groundnut were found to be the highest with gi-oundnut + pigeonpea intercropping system, which were however, co6arable with groundnut + castor system. All these attributes were at their lowest, when groundnut was intercropped with either 4' pearlmillet or sorghu,p. I Pod yield (pooled mean) of groundnut was the highest with groundnut. + pigeonpea, which was on par with groundnut + castor. The lowest pod yield of groundnut was realized with pearlmillet or sorghum as intercrops. Haulm yield of groundnut hllowed the same trend of pod yield. Groundnut pod equivalent yield (pooled mean) of intercropping system was the highest with groundnut + castor, which was coinpirable with groundnut + ..pigeonpea. Groundnut + soybean system recorded the lowest groundnut pod equivalent yield, which was significantly inferior to other intercropping systems, except with groundnut + greengram. Efficiency evaluation indices viz., LER, ATER and SLER were found to be maximum with groundnut + castor followed by groundnut + pigeonpea, while groundnut intercropped with greengram resulted in the ,lowest values of these indices. The net gain of soil available nitrogen was the highest with groundnut -k pigeonpea system, while the lowest net gain was associated with groundnut + sorghum. The highest and lowest net gain of soil available P2O5 was recorded with groundnut + pearlmillet and groundnut + sesame intercropping systeins, respectively. The net gain of soil available K20 was the highest with groundnut + soybean system, while the lowest net gain was associated with groundnut + sorghum intercropping system. Net returns and benefit cost ratio were the highest with groundnut + castor system, which were comparable with groundnut + pigeonpea, while the lowest net returns and benefit cost ratio were registered with groundnut + soybean. The highest monetary advantage was realised with groundnut + castor intercropping system, which was significantly superior to all other + intercropping systems, while ihi lowest was associated with grounclnut + greengram system. The highest dry matter production, econoinic yield (groundnut pod equivalent yield) and the econon~ic returns of different sequence crops tried after 1cl.larif groundnut was maximum with clusterbean, which were significantly superior to rest of the crops, while sorghum as the sequence crop recorded all the above parameters at their lowest level, with negative net returns.
  • Thumbnail Image
    ThesisItemOpen Access
    PROSPECTS OF ORGANIC FARMING IN RICE-BASED CROPPING SYSTEM
    (Acharya N G Ranga Agricultural University, Guntur, 2002) SRINIVASA REDDY, MALLU; SRINIVASULU REDDY, D
    1;ielcl experiments were conducted tiusing t\vo consecuti\ e yews (2( 00 ~11d 2001) on sandy loam soils of wet Iiind block of S.\'. Agricultural C'olley,. t-cl~~~~ (ANGIUU), Tirupati (Southern Agro- climatic Zone of 4.P.) to study the "I'rospects of organic ?arming in rice-based cropping system". 'The investigations ne1.e conducted for two seasons, with rice during kharifand groundnut during ~-crh~ ,~nd laid out in randomized block design replicated thrice. ?'he same layout was fi)llowed during both the years of study. 'The treatments consisted of twelve N manclgement practices (no N, Azospirillt~m alone, (;M Nl ,o. GLM 1\3 FYM Nloo, 1; Nl,,,,. (;M Ni,, + I' Nio, GIJM N50 + F lVso, FYM Ni(, + I' Nil,, GM N<,) + F Nio + Azo., (;I \ 1 '\J,( -i 1' N5(, Azo. and FYM lV50 + 1: NiO + Azo.) applied to lihar~f rice and ground i~it \\as raised to find out the residual effect of the treatments applied to kharif rice. 1 he Lest variety ofrice was NIX-145 and that of groundnut was K-134. The results indicated that different h nianagement practices to rice ~ceabl? altered the growth parameters, yield attributes, yield and nutrient uptake of slce ;is well as the post harvest fertility status of soil. The growth attributes ir.. plant height, total tiller m-2, L.AI and dry matter production lvere highest with Ci\l C,,,,, at active tillering and with GLM Nio I; N5() f Azo., at panicle initiation. \\bile at flowering and at harvest the highest stature of the gro\\rth parameters was ;is:.oiintcd with FNloo. Yield attributes of rice viz.. panic1i:s In'. number of grains panicle'. iillecl grains panicle-' and 1000-grain weight were highest with supply of 100 per ccrit N through fertilizer, which were comparable wlth all the recommended N application treatments, except the two exclusive organic sources of N supply viz. GM TJ,,,,, and FYM NlOO. Grain and straw yield of' rice \\as s~gn~ficantly h~ghe~ \\~th the applicat~on 01 100 per cent N through fertili~er. nh~ch \vas in parity with a11 the integ~,ttcd N n-~anagement practices of'GLM Ni,, + 1' W,o + Jzo., (iM Nio + F N,,, + iflo.. (;I hl lV,, t F NSO, GM N5" + F NsO, FYM Nit, t t Nil) i ,lzo , and 1 YM N,,, + 1. lV,,, Quality parameters of rice viz.. whole graln per cent, nill ling pel. cent. l~roti'itl content and amylose content of rice kernels were highest with co~?j~lnctive use ot CiLM Nio+F NSO+Azo., while the higllcst hrclkcn grain percentage \\as I-ecosdctl iz ith 11o N application. Nitrogen, phosphorus and potassium uptake of rice was the highest \viiIl (ibl Nloo at active tillering and with GLM Nio + I- Nio t Azo. at panicle initiation, \i liilc at flowering and harvest the highest N, 1' and I( uptake was registered \irit1i supply of I00 per cent N through fertilizer. 'The highest organic carbon, aviiilabli: nitrogen and available pot;~ssii~~l~ content of soil (post harvest) were noticed with application of 100 per cent N tll~.ollgIt I;YM, which was however, comparable N ith all the N a~~plication treatments. cxccpt 1; Nloo, Azospirillzrm alone and control. 'I'he available soil phosphorus status tlid no1 vary to a statistically traceable extent. The highest gross returns, net returns and BC ratio of rice were recorded ~vith application of 100 per cent N through t'erti1izt:r (T6). Supply of 100 per cent N through FYM to preceding rice has recorded the highest stature of growth parameters viz., plant height, LA1 and dry matter. production and yield attributes viz., number of pods plant-1, hundred-pod weight, and hundred-kernel weight of rabi groundnut. The highest pod and haulm yield of groundnut were recorded with FYh4 Nloo imposed to preceding rice, which were however statistically similar to FYM Nio + F NS0 (T9), FYM NSO + F Nso + Azo. (TI 1, GI-M N loo (T4) and GM Nloo (T3). At 30 and 60 LIAS, the nodule dry we& was highest with FYM NIo0 ~~i~pliecl to kharif rice, while at 90 DAS anci at hartest the nodule dry tveigtlt \vxs not significantly influenced by different N management practices imposed to prec e(1ing rice. The highest 1\J, P and I( uptake at all the stages of groundnut were recol-ded with application of FYM Nloo to preceding rice. The highest post harvest soil organic cart)on, available nitrogen ancl pota-;siillij content after groundnut were noticed with the application of FYM Nl()(, to preceding rice, which was however, comparablt: with all the recommended N applic:~tion treatments, except 100 percent N through fe~ ti lizer. The post har\,est soil available phosphorus status did not show any significant variation. I'he highest gross and net rt*ll~r~l~ 1s \+ell ilS i3C ratio of ~I.OLIIIC!IIII~ \\CIC I-ecordcd 1~1th I.YM Nloo. which \vcrc stat~strcall similar with 1:YhI Y,,) t I U,,). 1:YM Nio t F N,o + .4zo., GLM Nlo0. GM Y,,(). (iLM Nio + I; Ni0, and (;[ 121 Y,,, 1: N,,, t Azo. imposed to khrrrrf rlcc 'l'he highest total dry mattes protiuc tion of'tlic cropping system
  • Thumbnail Image
    ThesisItemOpen Access
    SlMULATlDrJ OF THE EFFECTS OF MANURE QUALITY, SOIL TYPE. AND CLIMATE ON N AND P SUPPLY TO SORGHUM AND PIGEONPEA IN SEMI-ARID TROPICAL INDIA
    (Acharya N G Ranga Agricultural University, Guntur, 2001) SUCHARITHA, R; LINGAM, B
    SlMULATlDrJ OF THE EFFECTS OF MANURE QUALITY, SOIL TYPE. AND CLIMATE ON N AND P SUPPLY TO SORGHUM AND PIGEONPEA IN SEMI-ARID TROPICAL INDIA
  • Thumbnail Image
    ThesisItemOpen Access
    STUDIES ON TIME OF PLANTING. GENOTYPES AND INTEGRATED NITROGEN MANAGEMENT FOR RAINFED SWEETPOTATO (lpomoea botatas L.)
    (Acharya N G Ranga Agricultural University, Guntur, 2001) NEDUNZHIYAN, M; SRINIVASULU REDDY, d
    STUDIES ON TIME OF PLANTING. GENOTYPES AND INTEGRATED NITROGEN MANAGEMENT FOR RAINFED SWEETPOTATO (lpomoea botatas L.)
  • Thumbnail Image
    ThesisItemOpen Access
    CLIMATIC CONSTRAINTS AND IRRIGATION SCHEDULES IN RELATION TO GROUNDNUT PROD UCTlVlTY DYNAMICS
    (Acharya N G Ranga Agricultural University, Guntur, 1998) SANKARA REDDY, KONDA; SOUNDARA RAJAN, M.S.
    CLIMATIC CONSTRAINTS AND IRRIGATION SCHEDULES IN RELATION TO GROUNDNUT PROD UCTlVlTY DYNAMICS
  • Thumbnail Image
    ThesisItemOpen Access
    CLIMATIC CONSTRAINTS AND IRRIGATIONS CHEDULES IN RELATION TO GROUNDNUT PRODUCTlVlTY DYNAMICS
    (Acharya N G Ranga Agricultural University, Guntur, 1998) PADMALATHA, Y; RAMI REDDY, S
    CLIMATIC CONSTRAINTS AND IRRIGATIONS CHEDULES IN RELATION TO GROUNDNUT PRODUCTlVlTY DYNAMICS
  • Thumbnail Image
    ThesisItemOpen Access
    CLIMATIC CONSTRAINTS AND IRRIGATION SCHEDULES IN RELATION TO GROUNDNUT PRODUCTlVlTY DYNAMICS
    (Acharya N G Ranga Agricultural University, Guntur, 1998) PADMALATHA, Y; RAMI REDDY, S
    CLIMATIC CONSTRAINTS AND IRRIGATION SCHEDULES IN RELATION TO GROUNDNUT PRODUCTlVlTY DYNAMICS
  • Thumbnail Image
    ThesisItemOpen Access
    IRRIGATION WATER AND FERTILIZER MANAGEMENT IN RABI SUNFLOWER
    (Acharya N G Ranga Agricultural University, Guntur, 1998) KRISHNA REDDY, G; RAMACHANDRA REDDY, I
    IRRIGATION WATER AND FERTILIZER MANAGEMENT IN RABI SUNFLOWER
  • Thumbnail Image
    ThesisItemOpen Access
    STUDIES ON M0iSTUREMANAGEMENT AND CROPPING SYSTEMS IN RAINFED ALFISOLS
    (Acharya N G Ranga Agricultural University, Guntur, 1998) JAYAPRADA, ARIKELA; SOUNDARA RAJAN, m.s.
    STUDIES ON M01STUREMANAGEMENT AND CROPPING SYSTEMS IN RAINFED ALFISOLS