Soil Arthropods Diversity in Manggis Natural Reserve and Coffee Agroforestry System Kediri Regency, Indonesia

Soil arthropods have role as herbivores, decomposers, predators and bioindicators of the various functions on ecosystems. Soil arthropods have an important role in increasing and maintaining soil productivity through the decomposition process of organic matter. The research was conducted to investigate abundance and diversity of soil arthropods in Manggis Natural Reserve and Coffee Agroforestry System. Hand-shorting methods and pitfall traps were used to catch soil arthropods. The abundance of soil arthropods were analyzed into diversity index. The result showed that the Natural Reserve has higher family number of soil arthropod and diversity index than the Agroforestry System. Individual of Hymenoptera order is very abundant in both location.

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Soil arthropod biodiversity in plain and hilly olive orchard agroecosystems, in Crete, Greece

ENTOMOLOGIA HELLENICA ◽

10.12681/eh.11531 ◽

2017 ◽

Vol 23 (1) ◽

pp. 18

Author(s):

V. D. Gkisakis ◽

D. Kollaros ◽

E. M. Kabourakis

Keyword(s):

Shannon Index ◽

Soil Arthropods ◽

Pitfall Traps ◽

Biological Pest Control ◽

Arthropod Diversity ◽

Soil Arthropod ◽

Agroecological Zones ◽

Abundance And Diversity ◽

Arthropod Biodiversity ◽

Index Of Diversity

Soil arthropod biodiversity was monitored in 24 olive orchards located in eight different sites in Messara, Crete, covering the two main agroecological zones of olive oil production, hilly and plain. Monitoring was done weekly for five weeks per season, from autumn 2011 to summer 2012, using pitfall traps. Subgroups of functional taxa were defined with respect to services of biological pest control and of nutrient cycling. Comparison of the different agroecological zones in terms of abundance and diversity of soil arthropods and functional subgroups was performed. Coleoptera (39.52%), Formicidae (27.3%), Araneae (8.77%) and Collembola (5.32%) were the most abundant taxa found in the olive orchards. Hilly orchards presented higher total arthropod diversity, but lower abundance due to family Tenebrionidae. Arthropod richness did not differ between agroecological zones. Functional arthropods were a major part of total abundance (76.7%) and presented a trend of higher catches abundance in the hilly orchards arthropods with seasonally statistically significant differences. Shannon Index of Diversity showed higher arthropod diversity in the hilly orchards, being significantly higher in spring. The less intensive olive production in hilly areas appeared to favour soil arthropod diversity.

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SOIL ARTHROPOD DIVERSITY ON THE FOREST FLOOR AND EX-ROAD IN MANGGIS GADUNGAN NATURAL RESERVE KEDIRI REGENCY, INDONESIA

Jurnal Teknologi ◽

10.11113/jt.v78.8344 ◽

2016 ◽

Vol 78 (5) ◽

Author(s):

D. Suheriyanto ◽

Soemarno Soemarno ◽

B. Yanuwiadi ◽

A. S. Leksono

Keyword(s):

Forest Floor ◽

Soil Arthropods ◽

Pitfall Traps ◽

Main Road ◽

Arthropod Diversity ◽

Disturbed Habitat ◽

The Road ◽

Predator Diversity ◽

Natural Reserve ◽

Soil Arthropod

Manggis Gadungan Natural Reserve is a biggest protected forest area in Kediri regency. There are many plants and animals conserved in the Natural Reserve. The main road crosses in the area was used as destination place. Since January 30, 2015 the road was unloaded. Soil arthropods have the ability to return to disturbed habitat. Soil arthropod diversity can illustrate the linkage of soil arthropod and ecosystem service. The research aims to compare abundance, composition and diversity of soil arthropod on the forest floor and ex-road in Manggis Gadungan Natural Reserve. The soil arthropods were collected by pitfall traps. The results show that there are 5 classes of soil arthropod i.e. Arachnida, Chilopoda, Collembola, Diplopoda and Insecta. The insect class has the highest taxa number of soil arthropods. The forest floor is characterized by the presence of Paronellidae 1, Entomobryidae 1 and Formicidae 5 while the ex-road is characterized by Paronellidae 2, Formicidae 1, Formicidae 7 and Gryllidae 1. The forest floor is dominated by decomposer while the ex-road is dominated by predator. Diversity of soil arthropod on the forest floor is higher than on the ex-road.

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Abundance and diversity of soil arthropods and fungi in shelterbelts integrated with pastures in the central tablelands of New South Wales, Australia

Journal of Forest Science ◽

10.17221/12/2012-jfs ◽

2012 ◽

Vol 58 (No. 12) ◽

pp. 560-568 ◽

Cited By ~ 1

Author(s):

E.W. Mbuthia ◽

J.H. Shariff ◽

A. Raman ◽

D.S. Hodgkins ◽

H.I. Nicol ◽

...

Keyword(s):

Organic Matter ◽

Biological Diversity ◽

Soil Depth ◽

Soil Surface ◽

Early Spring ◽

Late Winter ◽

Soil Arthropods ◽

South Wales ◽

Abundance And Diversity ◽

The Relationship

Shelterbelts are important for the sustainability of agriculture because they provide a variety of benefits to farmers and the society. Several published papers demonstrate that integration of shelterbelts with agroecosystems offers positive outcomes, such as better yield, more congenial microclimate, and greater organic matter levels. Nonetheless, soil biological diversity, the driver of greater organic matter levels, has not been convincingly tested and verified yet. In addressing this gap, we measured abundance and diversity of populations of arthropods and fungi in three<br />11-year old shelterbelts integrated with pasture to determine whether a correlation exists between the abundance of and diversity in populations of arthropods and fungi in two seasons: late autumn-early winter (May–June 2011) and late winter-early spring (August–September 2011). Litter from the soil surface and soil from two depths were sampled at increasing distance from the midpoint of shelterbelts for the extraction of arthropods and isolation culturing of fungi. The relationship among distance, depth and biodiversity of different groups of arthropods and fungi was analysed using linear regression. We found that over both seasons arthropod abundance in the litter and soil declined with increasing distance from the midpoint of the shelterbelts, and with soil depth. However, fungi abundance in either season was not affected by proximity to the shelterbelt but increased with greater soil depth. Distance from the shelterbelt midpoints did not bear an impact on the diversity richness of both arthropods and fungi.

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STRUKTUR KOMUNITAS MESOFAUNA TANAH PEROMBAK BAHAN ORGANIK PADA VEGETASI KOPI DAN KAKAO

AGRICA ◽

10.37478/agr.v3i1.488 ◽

2020 ◽

Vol 3 (1) ◽

pp. 1-8

Author(s):

Kristina Erniyani ◽

Sri Wahyuni ◽

Yustina Maria Silvia Wonga Puu

Keyword(s):

Organic Matter ◽

Crop Residues ◽

Diversity Index ◽

Soil Condition ◽

Soil Sampling ◽

Agricultural Product ◽

Soil Productivity ◽

Soil Organisms ◽

Coffee Plantations ◽

High Level

The use of inorganic fertilizers and pesticides can change the agroecosystem gradually. These changes may result in a decrease in the diversity of soil organisms. These organisms are very important in the decomposition process of reforming the organic matter into compounds that are readily absorbed by plants. Other changes include a change in the soil structure which will affect the soil chemical and physical characteristic and ultimately affect the soil productivity leading to a decreased agricultural product. The return of the remains from harvest, litter and crop residues from coffee and cocoa crops to the soil will provide energy for soil organisms and it will help maintain the soil environment that supports the life of other organisms. This research aimed at identifying the composition and diversity of mesofauna formed by the composted organic matter in cocoa and coffee plantations. Soil sampling was conducted on coffee and cocoa plantations in the Onelako village of Ndona District. Soil sampling was conducted in September 2010. Soil sampling used Neuman method of 0-15 cm and 16-30 cm depth. Each soil sample was taken to the laboratory. The separation of mesofauna from soil used Berlese-tullgran method that had been modified for 4 days. The separated Meso fauna was identified under the light microscope. The result of this research showed that the highest composition of mesofauna decomposer of organic matter in cocoa and coffee vegetation is Collembola. Collembola is very tolerant to acidic soil condition and they are dominant in the soil and surface habitats that contain lots of litter. Collembola is microarthropods that have large distribution both in quantity and diversity. The highest diversity of mesofauna on coffee vegetation is 1.525 and on cocoa, vegetation is 1.273. It was also noted that at a depth of 0-15 cm there was a higher concentration of mesofauna in the coffee vegetation area, which was about 7.3960, while in the cocoa vegetation there where 3.6376. The high level of the diversity index caused an increase in decomposition and therefore better soil fertility.

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Rehabilitation of critical land by Implementing complex agroforestry at the prioritized subwatersheds in the Muria Region

Sains Tanah - Journal of Soil Science and Agroclimatology ◽

10.20961/stjssa.v17i1.37704 ◽

2020 ◽

Vol 17 (1) ◽

pp. 63

Author(s):

Maria Theresia Sri Budiastuti ◽

Djoko Purnomo ◽

Hendy Hendro ◽

Untung Sudjianto ◽

Budi Gunawan

Keyword(s):

Organic Matter ◽

Surface Runoff ◽

Soil Conservation ◽

Diversity Index ◽

Quantitative Description ◽

Agroforestry System ◽

Control Surface ◽

Vegetation Diversity ◽

Coffee Tree ◽

Cropping Patterns

<pre>The prioritized subwatersheds are comprised of seven subwatersheds that have been declared critical within the 52 subwatersheds in the Muria Mountains. An area of approximately 11,000 ha, the topography of the prioritized subwatersheds is wavy—the typical slope ranges from 25 to 45%—and susceptible to erosion. The purpose of this research was to evaluate agroforestry cropping patterns to support soil conservation and reclamation on critical lands. This study is a quantitative description of research conducted through survey. The results show that most of the researched area has Inceptisols soil type with sandy, clay, and loam textures. The nitrogen, phosphate, potassium, C-organic, and organic matter contents are relatively low while the vegetation Diversity Index is categorized as medium. Sengon trees dominate in the prioritized subwatersheds area, followed by mahogany, coffee, and teak with average Importance Values of 89.57, 60.24, 78.40, and 21.03, respectively. This research shows that an agroforestry system comprised of sengon trees and coffee is ideally applied in the prioritized subwatersheds. Coffee requires shade and reduces rain-induced erosion; sengon trees function as a shade while at the same time contributing to the soil as a source of nutrients. During rains, this combined agroforestry system is able to control surface runoff and soil erosion. A sengon/coffee-tree based agroforestry system is ecologically friendly and appropriate for development in the prioritized subwatersheds.</pre>

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DIVERSITY OF SOIL ARTHROPOD IN GREEN BARRIER AREA PT. PUSRI

BIOVALENTIA Biological Research Journal ◽

10.24233/biov.2.1.2016.25 ◽

2016 ◽

Vol 2 (1) ◽

Author(s):

Arif Hidayat ◽

Hilda Zulkifli ◽

Chandra Irsan

Keyword(s):

Diversity Index ◽

Vegetation Type ◽

Abiotic Factors ◽

Tectona Grandis ◽

Soil Arthropods ◽

Paraserianthes Falcataria ◽

Soil Arthropod ◽

Hura Crepitans ◽

Index Value ◽

Green Barrier

The research was conducted to inventory and identify as well as acknowledge the correlation between vegetation type with soil arthropods in the Green Barrier area of PT Pusri. PT. Pusri green Barrier area is 28 hectares and dominated by 10 types of vegetation, such as, the Angsana (Pterocarpus indicus Wild), Bambu (Bambusa Sp), Beringin (Ficus benyamina), Buah Roda (Hura crepitans L), Jati (Tectona grandis L), Kelampayan (Neolamarckia cadamba) , Ketapang (Terminalia catappa L), Mahony (Swietenia macrophylla King), Pulai (Alstonia scholaris), and Sengon (Paraserianthes falcataria L). Soil arthropods were collected by using pit fall traps and funnel barlese-tullgren in every type of vegetation, between July-August 2015. Identification of arthropod genera Identification has been done in Entomology Laboratory of the Agriculture Plant Disease Faculty Sriwijaya University, and analysis of soil organic in the Laboratory of Soil Faculty of Agriculture Sriwijaya University. The results were obtained into 3 classes of soil arthropods belonging to the 10 orders, 28 families and 35 genera. The diversity index value of soil arthropods in various types of vegetation is classified moderately (H= 1-3), and no type of soil arthropods were dominant, mean that soil arthropods with different types spread over in the various types of vegetation in the area of Green Barrier PT. Pusri. Light intensity abiotic factors play an important role in the life of the soil arthropod communities in vegetation Sengon (Paraserianthes falcataria L) with a correlation coefficient 1.00Keywords: soil arthropods, community structure, a biotic factors, Green Barrier PT. Pusri

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DIVERSITY AND COMPOSITION OF SOIL ARTHROPODE IN THE REVEGETATION AREA OF COAL MINING USED LAND OF PT. BARA ALAM UTAMA, SITE LAHAT, SOUTH SUMATERA

BIOVALENTIA Biological Research Journal ◽

10.24233/biov.6.2.2020.194 ◽

2020 ◽

Vol 6 (2) ◽

Author(s):

Puput Pujiati ◽

Syafrina Lamin ◽

Yuanita Windusari

Keyword(s):

Coal Mining ◽

Diversity Index ◽

Abiotic Factors ◽

Mining Area ◽

Research Area ◽

Survey Method ◽

Soil Arthropods ◽

Dominance Index ◽

Evenness Index ◽

Soil Arthropod

Coal mining can disrupt the balance of the ecosystem, including the soil environment ecosystem as a habitat for soil arthropods. This study aims to see the soil arthropod family, relative density, diversity, dominance and evenness of soil arthropods in the revegetation area of the ex-mining area of PT. Bara Alam Utama. The re-search was conducted in the revegetation area of the former coal mine area of PT. Bara Alam Utama in Lahat district, South Sumatra. The research area consists of 8 location points, namely natural areas, revegetation areas of age 7,6,5,4,3,2 and 1 year. The study was conducted using an exploratory survey method, sampling was car-ried out based on the purposive sampling method by drawing a 100 m long transect with 5 sample plots inside measuring 20 x 10 m at each revegetation age. The results showed that the highest soil arthropod diversity index was found at the 3 year old revegetation location (H = 0.915) and the highest soil arthropod evenness index was at the 3 year old revegetation location (e = 0.17), while the highest soil arthropod dominance index was at 5 year old revegetation location (D = 0.886) which causes the 5 year revegetation location to have the lowest soil ar-thropod diversity index and evenness index (H = 0.351 and e = 0.054), while the lowest soil arthropod domi-nance index value is at the 3 year old revegetation location (D = 0.667), so it can be seen that there is a correla-tion between the diversity index and the evenness index of soil arthropods where both are inversely proportional to the results of the calculation of the dominance index. The high and low diversity index at each research loca-tion is influenced by abiotic factors (pH, soil temperature and soil moisture), age of revegetation and type of vegetation

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Assemblage Patterns of Hymenoptera at Different Elevations of Gunung Datuk, Rembau

Scientific Research Journal ◽

10.24191/srj.v14i2.9358 ◽

2017 ◽

Vol 14 (2) ◽

pp. 1 ◽

Cited By ~ 1

Author(s):

Noor Nasuha Abd Aziz ◽

Siti Khairiyah Mohd Hatta ◽

Idris Abd Ghani ◽

Saiyid Jalaluddin Saiyid Shaifuddin

Keyword(s):

Species Richness ◽

Diversity Index ◽

High Elevation ◽

Significant Difference ◽

Index Site ◽

Evenness Index ◽

Abundance And Diversity ◽

Richness Index ◽

Paired T Test ◽

Malaise Traps

A study on abundance and diversity of Hymenoptera was conducted in Gunung Datuk, Rembau. Samplings were conducted from November 2014 to February 2015 using six Malaise traps. Three traps were placed at Site 1 at 700m height for high elevation and the remaining traps were placed at Site 2 at 200m height for low elevation. A total number of 221 Hymenopteran were collected which consist of nine families namely Ichneumonidae, Formicidae, Braconidae, Bethylidae, Evaniidae, Tiphiidae, Vespidae, Pompilidae and Apidae. In this study, 93 individuals were obtained from Site 1, comprising nine families and 43 morphospecies while 127 individuals were obtained from Site 2 with nine families and 45 morphospecies. Formicidae was the most dominant family collected from both sites with a total of 104 individuals while the least family recorded was Apidae with only one individual. Shannon’s Weiner Diversity Index (H’) showed Site 1 had the higher diversity value with H’ = 3.17 compared to Site 2 with value H’ = 3.12. For Evenness Index, Site 1 had higher value compared to Site 2 with E’ = 0.84 and E’ = 0.82 respectively. Moreover, for Margalef Richness Index, Site 1 recorded R’ = 9.24 while site two recorded R’ = 9.08 which concluded that Site 1 had higher species richness compared to Site 2. Paired t-test showed that both sites had no significant difference with p>0.05. Overall study showed that the diversity and abundance of Hymenoptera in Gunung Datuk were low since the value of H’ is less than 3.50.

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Soil compaction and organic matter affect conifer seedling nonmycorrhizal and ectomycorrhizal root tip abundance and diversity.

10.2737/pnw-rp-494 ◽

1996 ◽

Cited By ~ 9

Author(s):

Michael P. Amaranthus ◽

Debbie Page-Dumroese ◽

Al Harvey ◽

Efren Cazares ◽

Larry F. Bednar

Keyword(s):

Organic Matter ◽

Soil Compaction ◽

Root Tip ◽

Abundance And Diversity ◽

Conifer Seedling

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The Soil Organic Matter in Connection with Soil Properties and Soil Inputs

Agronomy ◽

10.3390/agronomy11040779 ◽

2021 ◽

Vol 11 (4) ◽

pp. 779

Author(s):

Václav Voltr ◽

Ladislav Menšík ◽

Lukáš Hlisnikovský ◽

Martin Hruška ◽

Eduard Pokorný ◽

...

Keyword(s):

Organic Matter ◽

Soil Organic Matter ◽

Soil Texture ◽

Management Practices ◽

Soil Depth ◽

Operating Conditions ◽

Hot Water ◽

Natural Soil ◽

Soil Productivity ◽

Linear Regression Models

The content of organic matter in the soil, its labile (hot water extractable carbon–HWEC) and stable (soil organic carbon–SOC) form is a fundamental factor affecting soil productivity and health. The current research in soil organic matter (SOM) is focused on individual fragmented approaches and comprehensive evaluation of HWEC and SOC changes. The present state of the soil together with soil’s management practices are usually monitoring today but there has not been any common model for both that has been published. Our approach should help to assess the changes in HWEC and SOC content depending on the physico-chemical properties and soil´s management practices (e.g., digestate application, livestock and mineral fertilisers, post-harvest residues, etc.). The one- and multidimensional linear regressions were used. Data were obtained from the various soil´s climatic conditions (68 localities) of the Czech Republic. The Czech farms in operating conditions were observed during the period 2008–2018. The obtained results of ll monitored experimental sites showed increasing in the SOC content, while the HWEC content has decreased. Furthermore, a decline in pH and soil´s saturation was documented by regression modelling. Mainly digestate application was responsible for this negative consequence across all soils in studied climatic regions. The multivariate linear regression models (MLR) also showed that HWEC content is significantly affected by natural soil fertility (soil type), phosphorus content (−30%), digestate application (+29%), saturation of the soil sorption complex (SEBCT, 21%) and the dose of total nitrogen (N) applied into the soil (−20%). Here we report that the labile forms (HWEC) are affected by the application of digestate (15%), the soil saturation (37%), the application of mineral potassium (−7%), soil pH (−14%) and the overall condition of the soil (−27%). The stable components (SOM) are affected by the content of HWEC (17%), soil texture 0.01–0.001mm (10%), and input of organic matter and nutrients from animal production (10%). Results also showed that the mineral fertilization has a negative effect (−14%), together with the soil depth (−11%), and the soil texture 0.25–2 mm (−21%) on SOM. Using modern statistical procedures (MRLs) it was confirmed that SOM plays an important role in maintaining resp. improving soil physical, biochemical and biological properties, which is particularly important to ensure the productivity of agroecosystems (soil quality and health) and to future food security.

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