Long-term water quality assessments under changing land use in a large semi-arid catchment in South Africa.

Increasing nutrient loads from land use and land cover (LULC) change degrade water quality through eutrophication of aquatic ecosystems globally. The Vaal River Catchment in South Africa is an agriculturally and economically important area where eutrophication has been a problem for decades. Effective mitigation strategies of eutrophication in this region require an understanding of the relationship between LULC change and water quality. This study assessed the long-term impacts of LULC changes on nitrate (NO3-N) and orthophosphate (PO4-P) pollution in the lower Vaal River Catchment between 1980 and 2018. Multi-year LULC was mapped from Landsat imagery and changes were determined. Long-term trends in NO3-N and PO4-P loads and concentrations in river water samples were analysed, while multi-year LULC data were ingested into the Soil and Water Assessment Tool (SWAT) to simulate the impacts of LULC changes in NO3-N and PO4-P loads. Main LULC changes included an increase in the irrigated area by 262% and in built-up area by 33%. This occurred at the expense of cultivated dryland fields and rangelands. In situ data analysis showed that at the catchment inlet, PO4-P concentration and loads significantly increased, while NO3-N concentration and loads decreased between 1980 and 2018. At the catchment outlet, only PO4-P loads increased, while NO3-N loads and concentrations remained the same. SWAT simulations at the Hydrologic Response Unit scale showed that irrigated land was the largest contributor to NO3-N leaching per ha. Aggregation of nutrient loads by LULC type showed increased nutrient loads from irrigated and built-up areas over time, while loads from dryland areas decreased. At catchment scale, dryland remained an important contributor of the annual nutrient loads total because of its large area. In future, research efforts should focus on crop management practices to reduce nutrient loads.

LEGUME-MAIZE ROTATION OR RELAY? OPTIONS FOR ECOLOGICAL INTENSIFICATION OF SMALLHOLDER FARMS IN THE GUINEA SAVANNA OF NORTHERN GHANA.

Soil nutrient constraints coupled with erratic rainfall have led to poor crop yields and occasionally to crop failure in sole cropping in the Guinea savanna of West Africa. We explored different maize-grain legume diversification and intensification options that can contribute to mitigating risks of crop failure, increase crop productivity under different soil fertility levels, while improving soil fertility due to biological N2-fixation by the legume. There were four relay patterns with cowpea sown first and maize sown at least 2 weeks after sowing (WAS) cowpea; two relay patterns with maize sown first and cowpea sown at least 3 WAS maize in different spatial arrangements. These were compared with groundnut-maize, soybean-maize, fallow-maize and continuous maize rotations in fields high, medium and poor in fertility at a site each in the southern (SGS) and northern (NGS) Guinea savanna of northern Ghana. Legumes grown in the poorly fertile fields relied more on N2-fixation for growth leading to generally larger net N inputs to the soil. Crop yields declined with decreasing soil fertility and were larger in the SGS than in the NGS due to more favourable rainfall and soil fertility. Spatial arrangements of relay intercrops did not have any significant impact on maize and legume grain yields. Sowing maize first followed by a cowpea relay resulted in 0.18-0.26 t ha-1 reduction in cowpea grain yield relative to cowpea sown from the onset. Relaying maize into cowpea led to a 0.29-0.64 t ha-1 reduction in maize grain yield relative to maize sown from the onset in the SGS. In the NGS, a decline of 0.66 and 0.82 t ha-1 in maize grain yield relative to maize sown from the onset was observed due to less rainfall received by the relay maize. Groundnut and soybean induced 0.38-1.01 t ha-1 more grain yield of a subsequent maize relative to continuous maize, and 1.17-1.71 t ha-1 more yield relative to relay maize across both sites. Accumulated crop yields over both years suggest that sowing maize first followed by cowpea relay is a promising ecological intensification option besides the more common legume-maize rotation in the Guinea savanna, as it was comparable with soybean-maize rotation and more productive than the other treatments.

Sustainable intensification through rotations with grain legumes in Sub-Saharan Africa: A review.

We conducted a systematic review of literature on the residual effects of grain legumes in cereal-based systems of sub-Saharan Africa (SSA) to quantify the magnitude and variability of rotational effects, to explore the importance of environmental and management factors in determining variability and to evaluate the evidence of the different mechanisms that explain rotational effects. We retrieved 44 unique publications providing 199 observations comparing continuous cereal performance with that of a grain legume-cereal rotation. The overall mean yield increase of 0.49 t grain ha-1, equal to an increase of 41% of the continuous cereal yield, is highly significant, but the variability in residual effects is large. Effects were more pronounced in southern Africa, the highlands of East Africa and the Guinea savannah, and less in the humid forest/derived savannah of West Africa and the Sudano-Sahelian zone. Maize showed stronger yield responses after a legume than millet and sorghum. Agro-ecological zone and cereal type were however confounded. All grain legume types significantly improved cereal yields, with stronger residual effects observed after soybean and groundnut than after cowpea. Fertiliser N application to cereals reduces the residual effects of legumes, but the response at 60-120 kg N ha-1 still equalled 0.32 t ha-1 or 59% of the response when no N is applied. The sustained benefits with large N applications indicate the importance of non-N effects. While mechanisms for improved soil P availability after grain legumes have been studied in some detail, it remains uncertain how important these are in farmers' fields. Grain legumes are unlikely to have a major influence on the availability of nutrients other than N and P, or on soil pH. Beneficial impacts of grain legumes on soil organic matter content can occur if legumes contribute to a greater overall cropping productivity, but studies generally report no such impacts. Evidence of impacts of grain legumes on weeds is limited to striga. Studies on the impacts on nematode pressure in cereals are inconclusive, probably because legumes act as a host for some of the key nematode genera that harm maize. The impact on the pressure of other pests and diseases in cereals is probably important, but evidence on this from SSA is lacking. Future research on N2-fixation by grain legumes and residual N benefits should focus on explaining the wide variability observed among sites. There is a clear need for more detailed mechanistic studies to assess the occurrence and relevance of non-N effects of grain legumes, particularly in relation to common pests and diseases in cereals.

N2-fixation and N contribution by grain legumes under different soil fertility status and cropping systems in the Guinea savanna of northern Ghana.

Continuous cereal-based cropping has led to a rapid decline in soil fertility in the Guinea savanna agro-ecological zone of northern Ghana with corresponding low crop yields. We evaluated the effects of cropping system and soil fertility status on grain yields and N2-fixation by grain legumes and net N contribution to soil fertility improvement in contrasting sites in this agro-ecological zone. Maize was intercropped with cowpea, soybean and groundnut within a row, with a maize stand alternated with two equally spaced cowpea or groundnut stands and in the maize-soybean system, four equally spaced soybean stands. These intercrops were compared with sole crops of maize, cowpea, soybean and groundnut in fertile and poorly fertile fields at sites in the southern (SGS) and the northern (NGS) Guinea savanna. The proportion of N derived from N2-fixation (%Ndfa) was comparable between intercrops and sole crops. However, the amount of N2-fixed was significantly larger in sole crops due to a greater biomass accumulation. Legumes in poorly fertile fields had significantly smaller shoot δ15N enrichment (-2.8 to +0.7‰) and a larger %Ndfa (55-94%) than those in fertile fields (-0.8 to +2.2‰; 23-85%). The N2-fixed however was larger in fertile fields (16-145 kg N ha-1) than in poorly fertile fields (15-123 kg N ha-1) due to greater shoot dry matter and N yields. The legumes grown in the NGS obtained more of their N requirements from atmospheric N2-fixation (73-88%) than legumes grown in the SGS (41-69%). The partial soil N balance (in kg ha-1) was comparable between intercrops (-14 to 21) and sole legumes (-8 to 23) but smaller than that of sole maize receiving N fertiliser (+7 to +34). With other N inputs (aerial deposition) and outputs (leaching and gaseous losses) unaccounted for, there is uncertainty surrounding the actual amount of soil N balances of the cropping systems, indicating that partial N balances are not reliable indicators of the sustainability of cropping systems. Nevertheless, the systems with legumes seem more attractive due to several non-N benefits. Our results suggest that soybean could be targeted in the SGS and cowpea in the NGS for greater productivity while groundnut is suited to both environments. Grain legumes grown in poorly fertile fields contributed more net N to the soil but growing legumes in fertile fields seems more lucrative due to greater grain and stover yields and non-N benefits.

Understanding variability in the benefits of N2-fixation in soybean-maize rotations on smallholder farmers' fields in Malawi.

Soybean production can contribute to the nitrogen economy of smallholder farming systems, but our understanding of factors explaining variability in nitrogen fixation and rotational benefits across farms and regions is limited. Biological nitrogen fixation (BNF) was quantified with the natural abundance method in 150 farmer-managed soybean plots under different varieties and inputs in Dowa, Mchinji and Salima districts of Malawi. Soybean yielded on average 1.2 t ha-1 grain and the above-ground biomass at mid pod filling (R5.5) was 2.8 t ha-1 and contained in total 63 kg ha-1 nitrogen derived from the atmosphere (Ndfa). Locally sourced varieties obtained a larger %Ndfa (65%) than the 'improved' variety Nasoko (53%). The %Ndfa was positively associated with soil sand content, sowing date, plant population and biomass accumulation, but it was not affected by inoculation with rhizobia or the combination of inoculation and NPK fertiliser application. Quantities of N2 fixed differed between regions and years, and was enhanced by applying inoculant and fertiliser together, leading to more biomass accumulation and larger grain yields. Soil available P and exchangeable K contents also increased the total amount of N2 fixed. In a related trial, continuous maize yields were compared with maize following soybean in 53 farmer-managed fields. Average yield in continuous maize was 2.5 t ha-1, while maize after soybean produced 3.5 t ha-1 (139% of continuous maize). Farmers with higher maize yields, who applied external nutrient inputs, and with a larger value of household assets achieved greater yield responses to rotation with soybean. A relative yield increase of more than 10% was observed on 59, 90 and 77% of the fields in Dowa, Mchinji and Salima respectively. We conclude that fields of soybean and maize that receive adequate nutrient inputs and good management to ensure good yields benefit most in terms of quantities of N2 fixed by the legume and the yield response of the following maize crop. The results suggest that the promotion of soybean-maize rotations should be done through an integrated approach including the promotion of appropriate soil and crop management techniques. Furthermore, they suggest that wealthier households are more likely to apply adequate nutrient inputs and good crop management practices and are likely to receive larger maize yield responses to the incorporation of soybean.

Arm hand skilled performance in persons with a cervical spinal cord injury--long-term follow-up.

STUDY DESIGN: Retrospective cohort study. OBJECTIVE: To assess development of arm hand skilled performance (AHSP) during and after in-patient rehabilitation in persons with cervical spinal cord injury (CSCI) and to determine factors that influence the outcome. SETTING: Eight rehabilitation centres in the Netherlands with specialised spinal cord injury departments. METHODS: AHSP was assessed using the Van Lieshout test (VLT) in persons admitted with recent CSCI. Assessment was carried out at the beginning (t1), after 3 months (t2), at the end (t3) of in-patient rehabilitation, and 1 and 5 years thereafter (t4, t5). Multilevel regression analysis was performed to determine development of AHSP and associations between AHSP and age, gender, motor completeness, lesion level (high or low CSCI), motor scores of upper extremity (MSUE), and pain in the tested arm. RESULTS: Fifty-five participants were included with mean age 38 years (range 18­64). There were 73% male, 80% had high CSCI (C3­C6) and 69% had motor complete lesion. Scores of VLT improved significantly during in-patient rehabilitation (mean: t1=25; t3=33) (P=0.005), scores remained unchanged at 1 year (t4=32) and 5 years (t5=32) (P=0.903) after in-patient rehabilitation. Motor completeness, MSUE and pain were significantly related to the VLT score (P<0.001, P<0.001, P=0.015, respectively). Age, gender and lesion level had no significant relationship. CONCLUSION: AHSP improved during in-patient rehabilitation. It was then stable during the next 5 years after discharge. Persons with an incomplete lesion, high MSUE and no pain in the tested arm perform best on the VLT.

HER-family gene amplification and expression in resected pancreatic cancer.

AIMS: Despite surgical resection, pancreatic cancer carries a poor prognosis. In search for new molecular therapeutic targets, we investigated the expression of the HER-family and gene amplification of HER-2 in pancreatic adenocarcinomas of different stages. METHODS: Tissue of 45 resected patients was analyzed for all HER-family 1-4 expression by immunohistochemistry and HER-2 gene amplification was assessed by multiplex ligation-dependent probe amplification and chromogenic in situ hybridization. The type of surgery, location, stage and grade of the tumor, as well as involvement of the resection margins were correlated with HER-expressions and univariate and multivariate survival analysis performed. RESULTS: Normal pancreatic tissue lacked HER1-2 expression, but did show HER3-4 expression. In cancers, no membranous overexpression of HER-1 and HER-2 was seen nor gene amplification of HER-2 found. HER-3, HER-4 is physiologically expressed in the normal pancreas and loss of cytoplasmic HER-3 and HER-4 expression was seen in 33/45 (73%) and 8/45 (18%) of pancreatic cancers. Cytoplasmic HER-3 expression decreased from early to late stage (p=0.05). HER-4 expression was not associated with survival, stage or tumor grade. There were no statistically significant differences in HER1-4 expression between the papilla of Vater (n=13) and non-papilla cancers (n=32). Multivariate survival analysis showed only stage to be of independent prognostic value (p=0.015). CONCLUSIONS: HER-1 and HER-2 are not overexpressed in pancreatic cancers. HER-3 and HER-4 are expressed in the normal pancreas but expression is lost in pancreatic cancer. HER-targeted therapy in pancreatic cancer is not supported by HER-expression of the tumor.

Characterization of the CD30L binding domain on the human CD30 molecule using anti-CD30 antibodies.

CD30 and its counter-receptor CD30 ligand (CD30L) are members of the TNF-receptor/TNFalpha superfamily and function to regulate lymphocyte survival and differentiation. Several monoclonal antibodies (MAbs) have been developed against CD30 and, based on mutual inhibition assays, are grouped into three nonoverlapping serologic clusters. However, the relationship between the epitopes recognized by the antibodies comprising each cluster and the binding domain for CD30L is not known. Using a soluble CD30L/CD8alpha chimeric protein, we assessed the ability of anti-CD30 MAb to inhibit the binding of CD30L to CD30 expressed by the CD30+ Karpas 299 cell line. CD30L binding by CD30 is blocked by MAb that recognize epitopes belonging to cluster Group A (like Ber-H2, Ber-H8, and HRS-4) as well as cluster Group C (like HeFi-1 and M44). Cluster Group B antibodies, including M67 and Ki-1, do not affect CD30L binding to CD30. The pattern of CD30L binding inhibition shows only limited correspondence to the functional capacity of some anti-CD30 MAb to trigger CD30 signaling. Finally, we demonstrate that the anti-CD30L MAb M81 also completely inhibits CD30/CD30L interaction. This information is useful for applying these MAbs in functional studies to further investigate the CD30/CD30L system and for designing assays for soluble CD30L.