Impact of land clearing methods and cropping systems on labile soil C and N pools in the humid zone Forest of Nigeria

Labile soil C and N play vital roles in soil–plant nutrient dynamics, especially in the low input cropping system and are vulnerable to perturbation. Surface (0–0.15 m) soils from three land clearing methods (slash and burn, bulldozed non-windrowed and bulldozed windrowed) and each with two cropping systems (5-and 4-year cropping/2-year cassava fallow) were collected in the humid forest ecosystem of Nigeria.The soils were analysed for total C and N, microbial biomass C and N (SMB C and N), particulate organic matter C and N (POM C and N), water-soluble C, potentially mineralizable N (PMN) and mineral N. The size of the labile C and N and their relative contributions to the organic C and total N differed significantly among land clearing methods, irrespective of the cropping system. Soils under slash and burn had a significantly (p > 0.05) higher particulate organic matter C, N (10.80 and 0.16 g kg⁻¹, respectively) and microbial biomass C and N (1.07 and 0.12 g kg⁻¹) compared to the bulldozed windrow, regardless of the cropping system. Four years cropping/2-year cassava fallow resulted in a significant higher labile C and N, relative to 5-year cropped plots across the land clearing methods. Effect of the treatments on the concentration of PMN and mineral N mirrored the SMB N and POM N. However, the quantity of most of the labile C and N pool and crop yield obtained from the slash and burn and bulldozed non-windrowed treatment did not differ significantly. Hence, bulldozed non-windrowed clearing could be a viable alternative to slash and burn in the case of large-scale farming in ensuring reduced losses of soil organic matter and nutrient during land clearing in the humid tropics.     

The cost of being an omnivore: mandible wear from plant feeding in a true bug

Evolutionary and ecological transitions from carnivorous to omnivorous feeding may be constrained by the ability of the animal to cope with disparate types of foods, even if preadaptations for such behaviour exist. The omnivorous true bug, Dicyphus hesperus (Hemiptera: Miridae) requires both animals (small, soft-bodied insects) and plants in its diet and obtains the majority of its dietary and metabolic water from plant feeding. Serrations on the lateral margins of the mandibular stylets wear with age, and this wear is exacerbated when the insects feed on plants compared to those provided free water and no plants. D. hesperus that feed on plants attack fewer prey but consumed similar amounts of prey tissue compared to individuals that were provided free water. Although others have shown mandible wear for plant-chewing animals we show for the first time that plant feeding can impose similar wear on plant-piercing animals as well.     

Predation and aggressiveness in host plant protection: a generalization using ants from the genus Azteca

In studying the ant genus Azteca, a Neotropical group of arboreal species, we aimed to determine the extent to which the ants use predation and/or aggressiveness to protect their host plants from defoliating insects. We compared a territorially dominant, carton-nester, Azteca chartifex, and three plant-ant species. Azteca alfari and Azteca ovaticeps are associated with the myrmecophyte Cecropia (Cecropiaceae) and their colonies shelter in its hollow branches; whereas Azteca bequaerti is associated with Tococa guianensis (Melastomataceae) and its colonies shelter in leaf pouches situated at the base of the laminas. Whereas A. bequaerti workers react to the vibrations transmitted by the lamina when an alien insect lands on a leaf making it unnecessary for them to patrol their plant, the workers of the three other species rather discover prey by contact. The workers of all four species use a predatory behaviour involving spread-eagling alien insects after recruiting nestmates at short range, and, in some cases, at long range. Because A. alfari and A. ovaticeps discard part of the insects they kill, we deduced that the workers' predatory behaviour and territorial aggressiveness combine in the biotic defence of their host tree.     

Feeding responses to selected alkaloids by gypsy moth larvae, Lymantria dispar (L.)

Deterrent compounds are important in influencing the food selection of many phytophagous insects. Plants containing deterrents, such as alkaloids, are generally unfavored and typically avoided by many polyphagous lepidopteran species, including the gypsy moth Lymantria dispar (L.) (Lepidoptera: Lymantriidae). We tested the deterrent effects of eight alkaloids using two-choice feeding bioassays. Each alkaloid was applied at biologically relevant concentrations to glass fiber disks and leaf disks from red oak trees (Quercus rubra) (L.), a plant species highly favored by these larvae. All eight alkaloids tested on glass fiber disks were deterrent to varying degrees. When these alkaloids were applied to leaf disks, only seven were still deterrent. Of these seven, five were less deterrent on leaf disks compared with glass fiber disks, indicating that their potency was dramatically reduced when they were applied to leaf disks. The reduction in deterrency may be attributed to the phagostimulatory effect of red oak leaves in suppressing the negative deterrent effect of these alkaloids, suggesting that individual alkaloids may confer context-dependent deterrent effects in plants in which they occur. This study provides novel insights into the feeding behavioral responses of insect larvae, such as L. dispar, to selected deterrent alkaloids when applied to natural vs artificial substrates and has the potential to suggest deterrent alkaloids as possible candidates for agricultural use.     

Slash and burn agriculture at higher elevations in north-eastern India. II. Soil fertility changes

The effect of ‘slash and burn’ agriculture (jhum) on soil fertility at higher elevations of Meghalaya, north-eastern India was investigated, comparing and contrasting 15, 10 and 5-year jhum cycles. The pH of the surface soil increased after the burn and gradually decreased during cropping and subsequent fallow development. Nutrients such as carbon and nitrogen are volatilized by the burn and declined, at least in the initial phase of cropping. However, nitrogen recovery started during the later phase of cropping. Available phosphorus followed a more or less similar pattern as nitrogen. On the other hand, cations increased markedly after the burn and were depleted during cropping. In general, the nutrient level under a 5-year jhum cycle was significantly lower than under 10 and 15-year cycles. The recovery pattern during fallow development had an initial phase of depletion, up to about 5 years, followed by recovery. This suggests that a jhum cycle of 5 years, now prevalent in the region, is definitely too short. The generally lower nutrient status under a terrace system after cropping, even when compared to a 5-year jhum cycle, suggests that a terrace system could not be sustained without a heavy input of fertilizers.     

我国大宗农产品贸易格局及对外依存度研究——基于虚拟耕地资源的分析和评价

我国已成为农产品进口大国,而所有农产品中都隐含有一定的耕地资源,论文基于农产品虚拟耕地资源的分析和评价,系统研究了我国大宗农产品贸易格局及对外依存度。论文所涉及的大宗农产品及其制品主要是土地资源密集型产品,包括粮食、油料、木薯、植物油、棉花、糖、饲料粕类等7大类,24个具体品种,以2000-2016年分国别的贸易数据为基础,从消费者的角度对大宗农产品虚拟耕地资源贸易量进行了分析和评价。研究结果显示,我国大宗农产品虚拟耕地资源净进口量由2000年的675×10⁴ hm²增加到2016年的5 928×10⁴ hm²,其中美国和巴西是中国农产品虚拟耕地进口量最大的国家,进口量分别由2000年的342×10⁴和146×10⁴ hm²,增加到2016年的2 101×10⁴和2 192×10⁴ hm²,占我国虚拟耕地进口总量比例超过70%;2016年农业耕地资源对外依存度达到30.5%,对巴西和美国的依存度分别为11.3%和10.8%。土地密集型农产品的大量进口,在一定程度上缓解了我国耕地资源紧张的压力,保证了粮食安全。     

常年淹水和干旱对三峡库区消落带菖蒲生长恢复的影响

菖蒲是三峡库区常见的一种湿生植物,本研究探讨了常年淹水对菖蒲生长恢复的影响,并分析了干旱对露水后菖蒲生长恢复的影响,为三峡库区消落带植被恢复物种的选择提供科学依据.分别于2009年9月和2010年9月前后2次将菖蒲(Acorus calamus L.)植株完全淹水,分别于翌年3、4、5月将植株露水(分别记为S1、S2和S3),2011年定期统计植株数和叶片数,测定叶长、叶宽.结果表明,淹水导致植株萌发数显著低于对照,且随着淹水时间增加植株萌发数呈显著降低趋势;淹水显著促进3月和4月露水植株叶片的伸长和形成,其叶长、叶片数、株叶长和总叶长显著高于对照,而5月露水植株的叶长、叶宽、叶片数、株叶长、总叶长和总叶片数均显著低于对照.随着淹水时间的增加露水后植株死亡数呈显著增大趋势,S1和S2组的叶长、叶宽显著增长,叶片数显著降低,而S3组植株叶长、叶宽、叶片数、株叶长、总叶长和总叶片数均显著降低.干旱导致对照、S1和S2组植株叶长、叶宽、株叶长、总叶长、叶片数和总叶片数均显著降低,植株存活数显著降低;干旱胁迫去除25 d后,对照、S1和S2组植株的叶片数分别增加了67.0%、66.7%和36.2%,且S1和S2组植株的株叶长、总叶长和总叶片数分别增加了48.2%、18.1%,66.7%、35.0%,75.0%、64.3%,差异显著(P<0.05).因此,菖蒲不仅对淹水的适应和耐受能力较强,而且露水后的生长恢复能力及对干旱的恢复能力也较强,可作为三峡库区消落带(特别是3月和4月露水区域)的恢复、重建物种.     

北京市清水与再生水协同利用优化模型

开展协同利用清水与再生水的城市供水系统优化研究具有重要的科学意义和广阔的应用前景.为促进城市水资源高效利用,基于多水源转换关系以及再生水生产能力和利用潜力,构建了面向多区域多部门的城市清水与再生水协同利用优化模型,并以水资源严重短缺的北京市为例进行实证研究.设置规划方案基准情景和规划替代方案情景,分别优化了清水与再生水的协同利用方案以及再生水厂群的运行方案.在规划方案基准情景下,再生水占研究区用水总量的32%,分别占农业、工业、环境用水量的60%、30%和42%.海淀区和石景山区再生水供给矛盾将较为突出.相比之下,规划替代方案情景可以获得更高的经济效益,总效益增加6. 21亿元,同时能增加再生水利用量36. 59%、减少清水用量14. 02%.规划替代方案能更加充分地利用现有设施,促进水资源循环利用.此外,还提供了在现有设施条件下,再生水利用量由政策规划值逐渐提升至最佳规模过程中再生水厂群的运行过渡方案.本文建立的研究方法具有较广泛的适用性,可用于解决其它具有再生水利用潜力地区的水资源短缺问题.     

木薯和花生间作对Cd吸收及根区速效养分的影响

木薯（Manihot esculenta Crantz）是热带和亚热带广泛种植的大生物量能源植物,在污染土壤上具有较强的生物修复潜力,花生（Arachis hypogaea）对土壤Cd具有很强的富集能力.木薯与花生间作可充分利用光热水资源,具有良好的间作优势,是近年来我国南方红壤坡耕地生态种植模式.为了解木薯与花生间作对土壤Cd吸收及根区速效养分的影响,在重金属Cd污染的小区进行了木薯单作、花生单作、木薯与花生间作的比较试验.结果表明,木薯与花生间作的产量土地当量比（LER）大于1,土地利用率提高了87.0%.与木薯单作相比,间作下木薯茎和叶w（Cd）分别降低了12.24%和19.51%,二者呈显著性差异（P < 0.05）,花生籽粒w（Cd）降低了35.38%,与单作花生差异显著（P < 0.05）.与单作下木薯和花生相比,花生、木薯总富集系数分别降低了16.32%、12.45%,间作系统对每hm2土地上Cd的富集量分别提高了10.72%、113.76%;间作下花生根区土壤w（速效氮）、w（速效磷）分别提高了18.85%、20.36%,木薯根区土壤w（速效氮）提高了21.00%,与单作下花生和木薯相比均呈显著性差异（P < 0.05）.研究显示,木薯与花生间作可提高土壤根区速效养分含量,促进作物生长,在提高作物生物量、降低作物各部位单位Cd含量的同时,可提高间作系统对土壤Cd的富集量,这种间作方式对实现两种能源植物生态修复及经济效益的整合具有重要意义.      

Changes in total cyanide content of tissues from cassava plants infested by mites (Mononychellus tanajoa) and mealybugs (Phenacoccus manihoti)

Dietary and industrial uses of cassava (Manihot esculenta Crantz) are threatened by the known presence of cyanide in the crop and its products. The toxic HCN content of cassava may be altered by some intrinsic and extrinsic factors in and around the plant, but the extent of any shifts in this regard due to stress conditions created by cassava green spider mites (CGM) Mononychellus tanajoa and mealybugs (CM) (Phenacoccus manihoti, now spreading epiphytotically in almost all cassava-growing areas in Africa, is unknown. In this study, we report variations in the total HCN content of leaf, stem and root tissues of six cassava clones differentially infested by these pests.     

纤维素分解菌复合系MC1分解木薯淀粉厂残渣

木薯渣木质纤维素含量较高,是有开发潜力的生物质资源,目前,木薯渣主要用来生产饲料和酒精.用其进行甲烷发酵也是很有前景的应用途径,但是木薯渣含水量大,颗粒分散,不利于固体发酵.利用纤维素分解细菌复合系MC1分解木薯渣,可将其转化为可溶的小分子有机物,提高其甲烷发酵效率.在分解过程中测定了木薯渣各成分的减少和分解产物.结果显示,经18 d分解,木薯渣的总干重减少了47.3%,其中纤维素减少了22.7%,半纤维素减少了90.4%,木质素减少了11.3%,其总分解量的85%在前6 d被分解.MC1分解木薯渣过程中可溶性物质总含量开始为18%,3 d后达到最高,为33%.GC-MS测定挥发性产物的总量在培养6 d后达到最高,挥发性产物共检测出12种,其中量较大的化合物为乙醇、乙酸、乙二醇、丁酸及甘油,这些产物为甲烷发酵菌可直接利用或者容易转化为甲烷菌直接利用的成分.因此利用MC1分解木薯渣作为甲烷发酵的前发酵手段将很有应用前景.     

Increasing land pressure in East Africa: The changing role of cassava and consequences for sustainability of farming systems

Increasing land pressure during the past three to four decades has transformed farming systems in the mid-altitude zone of East Africa. Traditional millet-, cotton-, sugarcane- and/or banana-based farming systems with an important fallow and/or grazing component have evolved into continuously cultivated cassava or cassava/maize-based systems. Within three to four decades, cassava cultivation increased from 1–11 to 16–55% of cropped fields in our six study sites. Declining soil fertility, and not labour or food shortage, was apparently the primary trigger for this transformation. The land use changes have increased nutrient offtakes and reduced nutrient recycling rates. Cassava and maize now account for 50–90% of nutrient removal. Whereas single-season fallows were the most important source of nutrient recycling on cropped fields in the past, currently cassava litterfall and maize stover contribute roughly 70% of nutrient recycling, with 50–70% of N, P and K recycled in cassava litterfall. This may explain why many farmers reason that cassava ‘rests’ the soil. With increasing land use pressure farmers progressively use cassava as an ‘imitation fallow’ throughout their farm. Farmers increasingly target cassava to poor fertility fields characterized by low pH and available P. High cassava intensities are nonetheless maintained on more fertile fields, probably to guarantee regeneration of soil fertility on all fields. Once cassava is targeted to poor fertility soils, farmers have run out of low-input management options and need to intensify management to maintain system productivity. As cassava is now used by more farmers and on a larger acreage than fallowing in the studied farming systems, cassava cropping could perhaps serve as an excellent entry point to strengthen system sustainability.     

木薯燃料乙醇的碳效应分析

出于能源安全的考虑及对温室气体减排的关注,世界各国近些年大力发展生物液体燃料,我国政府提倡以木薯等非粮作物为原料生产燃料乙醇。一直以来科学家们对生物液体燃料的碳效应争论激烈,争论的焦点在于原料种植对土壤碳库的影响及不同技术条件下副产品利用的评估。论文通过建立碳平衡分析模型,将原料种植对土壤碳库影响及副产品利用的替代效应纳入研究体系,评估了我国木薯燃料乙醇生产各个环节的碳排放,研究结果显示:木薯原料种植环节碳排放主要来自氮肥的使用及对土壤碳库的破坏;木薯燃料乙醇加工转化环节碳排放主要来自蒸馏和脱水过程能源消耗,改进加工转化技术对减少此环节碳排放至关重要;木薯燃料乙醇运输及储存过程碳排放较小。在现有生产技术条件下,生产单位质量(1 kg)木薯燃料乙醇平均碳排放为0.647 kg。以汽油的碳排放为参照,在目前技术水平条件下,我国木薯燃料乙醇碳排放呈现负效益;采用较为先进的双酶法中温喷射液化-大罐浓醪间歇发酵-多塔多耦合差压精馏和分子筛变压脱水技术,则其碳排放为汽油的90%;倘若能避免对土壤碳库的破坏,则这一比例下降到64%。因此,为了促进我国木薯燃料乙醇的发展,减少木薯燃料乙醇生产的碳排放,首先应该引导农民合理施肥,利用边际土地种植木薯,不转换林地、草地等土地类型的利用方式,减少对土壤碳库的破坏;此外,要开发高效节能的燃料乙醇转化技术并加强对副产品的二次利用。     

高效木薯渣分解复合菌群RXS的构建及其发酵特性研究

从富含腐烂纤维质的环境中取样,通过以木薯渣及滤纸为碳源的蛋白胨纤维素培养基不断地富集培养,构建了一组高效稳定的纤维质分解复合菌群.考察了该复合菌群对不同纤维质底物的分解性能及其在木薯渣水解过程中主要参数的变化.研究发现该复合菌群对滤纸、脱脂棉、微晶纤维素、麦秸秆和木薯渣等原料均能够进行有效的降解.在该复合菌群应用于木薯渣的水解过程中,监测发现纤维素酶、半纤维素酶、果胶酶等关键酶的酶活力分别在第2～3 d达到最大值34.4、90.5和15.8U;经过10 d的发酵后,木薯渣中的纤维素、半纤维素及木质素分别降解了79.8%、85.9%和19.4%,且木薯渣的失重高达61.5%;此外,代谢产物主要是乙酸、丁酸、己酸和甘油;而溶解性COD、总糖和总挥发酸的变化表明第2 d时木薯渣的水解率最高.上述结果表明,该复合菌群能够有效地水解木薯燃料酒精生产过程中的废弃物木薯渣,并有望用于木薯渣高效沼气发酵的前处理中.     

Recilia banda Kramer (Hemiptera: Cicadellidae), a vector of Napier stunt phytoplasma in Kenya

Napier grass (Pennisetum purpureum) is the most important fodder crop in smallholder dairy production systems in East Africa, characterized by small zero-grazing units. It is also an important trap crop used in the management of cereal stemborers in maize in the region. However, production of Napier grass in the region is severely constrained by Napier stunt disease. The etiology of the disease is known to be a phytoplasma, 16SrXI strain. However, the putative insect vector was yet unknown. We sampled and identified five leafhopper and three planthopper species associated with Napier grass and used them as candidates in pathogen transmission experiments. Polymerase chain reaction (PCR), based on the highly conserved 16S gene, primed by P1/P6-R16F2n/R16R2 nested primer sets was used to diagnose phytoplasma on test plants and insects, before and after transmission experiments. Healthy plants were exposed for 60 days to insects that had fed on diseased plants and acquired phytoplasma. The plants were then incubated for another 30 days. Nested PCR analyses showed that 58.3% of plants exposed to Recilia banda Kramer (Hemiptera: Cicadellidae) were positive for phytoplasma and developed characteristic stunt disease symptoms while 60% of R. banda insect samples were similarly phytoplasma positive. We compared the nucleotide sequences of the phytoplasma isolated from R. banda, Napier grass on which these insects were fed, and Napier grass infected by R. banda, and found them to be virtually identical. The results confirm that R. banda transmits Napier stunt phytoplasma in western Kenya, and may be the key vector of Napier stunt disease in this region.     

Reduced Chitinase Activities in Ant Plants of the Genus Macaranga

Many plant species have evolved mutualistic associations with ants, protecting their host against detrimental influences such as herbivorous insects. Letourneau (1998) reported in the case of Piper that ants defend their plants principally against stem-boring insects and also reduce fungal infections on inflorescences. Macaranga plants that were experimentally deprived of their symbiotic Crematogaster ants suffered heavily from shoot borers and pathogenic fungi (Heil 1998). Here we report that ants seem to reduce fungal infections actively in the obligate myrmecophyte Macaranga triloba (Euphorbiaceae), while ant-free plants can be easily infected. We also found extremely low chitinase activity in Macaranga plants. The plants' own biochemical defense seems to be reduced, and low chitinase activity perhaps may represent a predisposition for the evolution of myrmecophytism. These plants are therefore highly dependent on their ants, which obviously function not only as an antiherbivore defense but also as an effective agent against fungal pathogens. Received: 5 August 1998 / Accepted in revised form: 18 November 1998     

Stability of soil organic carbon changes in successive rotations of Chinese fir （Cunninghamia lanceolata （Lamb.） Hook） plantations

The importance of soil organic carbon (SOC) under forests in the global carbon cycle depends on the stability of the soil carbon and its availability to soil microbial biomass. We investigated the e ects of successive rotations of Chinese fir (Cunninghamia lanceolata (Lamb.) Hook) plantations on the stability of SOC and its availability to microbes by adopting the two-step hydrolysis with H2SO4 and density fractionation. The results showed that successive rotations of Chinese fir decreased the quantity of total SOC, recalcitrant fraction, and carbohydrates in Labile Pool I (LP I), and microbial properties evidently, especially at 0–10 cm horizon. However, cellulose included in Labile Pool II (LP II) and the cellulose/total carbohydrates ratio increased in successive rotations of Chinese fir. The noncellulose of carbohydrates included in LP I maybe highly available to soil microbial biomass. Hence the availability of SOC to microbial biomass declined over the successive rotations. Although there was no significant change in recalcitrance of SOC over the successive rotations of Chinese fir, the percentage of heavy fraction to total SOC increased, suggesting that the degree of physical protection for SOC increased and SOC became more stable over the successive rotations. The degradation of SOC quality in successive rotation soils may be attributed to worse environmental conditions resulted from disturbance that related to “slash and burn” site preparation. Being highly correlated with soil microbial properties, the cellulose/total carbohydrates ratio as an e ective indicator of changes in availability of SOC to microbial biomass brought by management practices in forest soils.     

Slash and burn agriculture at higher elevations in North-Eastern India. I. Sediment,water and nutrient losses

The hydrology and the pattern of sediment and nutrient loss through water that may occur under ‘slash and burn’ agriculture (jhum) at the time of cropping, as well as during the subsequent fallow development, was studied at higher elevations of Meghalaya, north-eastern India and compared with terrace cultivation. A comparison of an agro-ecosystem under a 10-year jhum cycle with that under a 5-year cycle suggests that the loss of sediment, water and nutrients such as nitrogen and phosphorus is greater under the latter, though cationic losses show a reverse trend. All losses were markedly reduced during fallow development during secondary succession. Terrace cultivation resulted in a general reduction of water and nutrient loss. However, these losses increased during the second year of terrace cultivation.While jhum cannot be sustained with the shorter cycle introduced in recent times, terracing does not seem to offer an alternative.     

Observations on the economic importance of tomato leaf miner (Liriomyza bryoniae) (agromyzidae)

Yield losses can occur as a result of leaf miner infestation, but are not dependent on severity of damage alone; proximity to fruit at an early stage of development is very important. If damage on leaves adjacent to a truss reached 30 mines/leaf at the time fruit was half-swollen, a 10% loss of yield resulted. At three levels of infestation investigated, losses amounted to 5, 13 and 20% of monetary returns. Although it was found that growing soft plants and keeping de-leafing to the minimum would maximise yields, it appeared that the direct effect of these cultural practices on yield was more important than their indirect effects on leaf miner damage.     

松花江下游沿江湿地土地利用变化对土壤细菌群落多样性的影响

本研究旨在明确生境质量变化对土壤细菌群落的影响,为松花江退化湿地选择科学的修复方法提供参考依据.于2018年使用Illumina MiSeq PE300第二代高通量测序平台对松花江下游的5种土地利用类型湿地（天然湿地、稻田地、玉米田、采砂迹地及恢复湿地）土壤细菌16S rDNA进行测序,分析不同土地利用类型土壤细菌群落多样性和功能的差异.结果表明：沿江湿地开垦为玉米田造成土壤细菌的Ace、Chao1和Shannon指数显著降低（P<0.05）,采砂迹地的仿湿地修复使土壤细菌的Ace、Chao1和Shannon指数显著提高（P<0.05）.天然湿地、稻田、玉米田和采砂迹地的土壤细菌群落结构差异显著（P<0.05）,采砂迹地与恢复湿地的土壤细菌群落结构相似.沿江湿地土壤细菌划分为40门、105纲、258目、421科、802属和1673种,变形菌门、放线菌门、酸杆菌门、绿弯菌门、拟杆菌门、疣微菌门、厚壁菌门和芽单胞菌门为各样地共有的优势菌门（相对丰度>1%）.相比之下,拟杆菌门偏好稻田土壤环境,变形菌门和芽单胞菌门偏好玉米田土壤环境,放线菌门偏好采砂迹地土壤环境.湿地土壤细菌具有新陈代谢、环境信息处理、遗传信息处理、细胞过程、人类疾病和有机系统这6类一级代谢通路、46类二级代谢通路和19类主要二级代谢通路（相对丰度>1%）.土壤pH、含水量、碱解氮和碳氮比是沿江湿地土壤细菌群落多样性的主要影响因子.由此可见,改变沿江湿地土地用途降低了土壤生态系统稳定性,增加了湿地退化的潜在生态风险.